This file last updated: 13/12/2021

P G

P G et al., Selective Removal of Transition Metal ions from Waste water By ion Imprinting Technology.
International Journal of ChemTech Research, 6, (4), 2438-2445, (2014)
   

P SM

P SM et al., Histamine H2-receptor antagonist imprinted-poly (vinylimidazole) grafted multiwalled carbon nanotubes.
Journal of Chemical and Pharmaceutical Research, 6, (12), 394-402, (2014)
   

P. G

P. G et al., Design of copper ion imprinted polymers based on crosslinked 4-vinylpyridine.
Journal of Chemical and Pharmaceutical Research, 7, (2), 910-916, (2015)
   

Pa'e N

Rahman MRA et al., Characterization of Bacterial Cellulose-Chitosan Composite Membrane Grafted With Theophylline-Imprinted Copolymer.
Applied Polymer Composites, 1, (3), 167-186, (2013)
   

Paarlberg E

Stroink T et al., On-line sample preconcentration in capillary electrophoresis, focused on the determination of proteins and peptides.
Electrophoresis, 22, (12), 2375-2383, (2001)
   

Pacakova V

Adamusova H et al., Analysis of estrogens and estrogen mimics in edible matrices - A review.
Journal of Separation Science, 37, (8), 885-905, (2014)
   

Pace SJ

Pace SJ et al., Use of computational modeling in preparation and evaluation of surface imprinted xerogels for binding tetracycline.
Microchimica Acta, 182, (1-2), 69-76, (2015)
   

Pacetti D

Lucci P et al., Book chapter, Current Trends in Sample Treatment Techniques for Environmental and Food Analysis, 
In: Chromatography - The Most Versatile Method of Chemical Analysis, de Azevedo Calderon A (Ed.) InTech: Ch. 5, 127-164, (2012)
   

Pachatz P

Bender S et al., Investigations on temperature controlled monolithic integrated surface acoustic wave (SAW) gas sensors.
Sensors and Actuators B: Chemical, 93, (1-3), 164-168, (2003)
   

Pacheco J

da Silva H et al., Molecularly imprinted sensor for voltammetric detection of norfloxacin.
Sensors and Actuators B: Chemical, 219, 301-307, (2015)
   

Pacheco JG

da Silva H et al., MIP-graphene-modified glassy carbon electrode for the determination of trimethoprim.
Biosensors and Bioelectronics, 52, 56-61, (2014)
   

Pacheco JG et al., Molecularly imprinted electrochemical sensor for ochratoxin A detection in food samples.
Sensors and Actuators B: Chemical, 215, 107-112, (2015)
   

Lopes F et al., Molecularly imprinted electrochemical sensor prepared on a screen printed carbon electrode for naloxone detection.
Sensors and Actuators B: Chemical, 243, 745-752, (2017)
   

Pacheco JG et al., Breast cancer biomarker (HER2-ECD) detection using a molecularly imprinted electrochemical sensor.
Sensors and Actuators B: Chemical, 273, 1008-1014, (2018)
   

Pacheco JG et al., Molecularly imprinted electrochemical sensor for the point-of-care detection of a breast cancer biomarker (CA 15-3).
Sensors and Actuators B: Chemical, 256, 905-912, (2018)
   

Couto RAS et al., Electrochemical sensing of ecstasy with electropolymerized molecularly imprinted poly(o-phenylenediamine) polymer on the surface of disposable screen-printed carbon electrodes.
Sensors and Actuators B: Chemical, 290, 378-386, (2019)
   

Pacheco JG et al., Electrochemical sensing of the thyroid hormone thyronamine (T0AM) via molecular imprinted polymers (MIPs).
Talanta, 194, 689-696, (2019)
   

Rebelo P et al., Azithromycin electrochemical detection using a molecularly imprinted polymer prepared on a disposable screen-printed electrode.
Analytical Methods, 12, (11), 1486-1494, (2020)
   

Rebelo P et al., Development of a molecular imprinted electrochemiluminescence sensor for amitriptyline detection: From MD simulations to experimental implementation.
Electrochimica Acta, 397, Article139273-(2021)
   

Rebelo P et al., Rational development of molecular imprinted carbon paste electrode for Furazolidone detection: theoretical and experimental approach.
Sensors and Actuators B: Chemical, 329, Article129112-(2021)
   

Rebelo P et al., Molecularly imprinted polymer-based electrochemical sensors for environmental analysis.
Biosensors and Bioelectronics, 172, Article112719-(2021)
   

Pacheco ME

Machicote RG et al., A molecular imprinted polymer as a flow-through optical sensor for oxazepam.
Journal of Analytical Methods in Chemistry, ArticleNo6302609-(2018)
   

Pacheco WF

Francisco JE et al., Synthesis and application of ion-imprinted polymer for the determination of mercury II in water samples.
Environmental Science and Pollution Research, 26, (19), 19588-19597, (2019)
   

Pachón LD

Pachón LD et al., Chiral imprinting of palladium with cinchona alkaloids.
Nature Chemistry, 1, (2), 160-164, (2009)
   

Pack D

Mallik S et al., Towards materials for the specific recognition and separation of proteins.
New Journal of Chemistry, 18, 299-304, (1994)
   

Pack DW

Shnek DR et al., Specific protein attachment to artificial membranes via coordination to lipid-bound copper(II).
Langmuir, 10, (7), 2382-2388, (1994)
   

Padalkar VS

Padalkar VS et al., Synthesis of triazine based dialdehyde Schiff's base - new templates for Molecular Imprinting and study of their structural and photophysical properties.
Arabian Journal of Chemistry, 9, (Supplement 2), S1793-S1800, (2016)
   

Padden KM

Padden KM et al., Characterization and applications of a nitric oxide sensitive Co(II) imprinted polymer.
Abstracts of Papers of the American Chemical Society, 220, (INOR), 151-151, (2000)
   

Mitchell-Koch JT et al., Modification of immobilized metal complexes toward the design and synthesis of functional materials for nitric oxide delivery.
Journal of Polymer Science Part A: Polymer Chemistry, 44, (7), 2282-2292, (2006)
   

Padró-Cortés L

Padró-Cortés L, Proceeding, Insight the rational design of molecularly imprinted polymer for the development of biomimetic receptors, 
(2006)
   

Padró-Cortés LR

Padró-Cortés LR et al., Proceeding, Effects of template-monomer complex formation on the synthesis of molecularly imprinted polymers in aqueous medium, 
4359, (2005)
   

Pagano I

Euterpio MA et al., Development and Validation of a Method for the Determination of (E)-Resveratrol and Related Phenolic Compounds in Beverages Using Molecularly Imprinted Solid Phase Extraction.
Journal of Agricultural and Food Chemistry, 61, (8), 1640-1645, (2012)
   

Page KM

Roche PJR et al., Multiple surface plasmon resonance quantification of dextromethorphan using a molecularly imprinted [beta]-cyclodextrin polymer: A potential probe for drug-drug interactions.
Sensors and Actuators B: Chemical, 139, (1), 22-29, (2009)
   

Paik P

Paik P et al., Enantioselective Separation Using Chiral Mesoporous Spherical Silica Prepared by Templating of Chiral Block Copolymers.
ACS Applied Materials & Interfaces, 1, (8), 1834-1842, (2009)
   

Paik P et al., Chiral-mesoporous-polypyrrole nanoparticles: Its chiral recognition abilities and use in enantioselective separation.
Journal of Materials Chemistry, 20, (20), 4085-4093, (2010)
   

Paik P et al., Chiral separation abilities: Aspartic acid block copolymer-imprinted mesoporous silica.
Microporous And Mesoporous Materials, 129, (1-2), 82-89, (2010)
   

Paik P et al., Synthesis of amino acid block-copolymer imprinted chiral mesoporous silica and its acoustically-induced optical Kerr effects.
Journal of Solid State Chemistry, 192, 127-131, (2012)
   

Paille-Barrere F

Settipani J et al., Theoretical aspects of peptide imprinting: screening of MIP (virtual) binding sites for their interactions with amino acids, di- and tripeptides.
Journal of the Chinese Advanced Materials Society, 6, (3), 301-310, (2018)
   

Paim LL

Wang QA et al., An Electrochemical Sensor for Reducing Sugars Based on a Glassy Carbon Electrode Modified with Electropolymerized Molecularly Imprinted Poly-o-phenylenediamine Film.
Electroanalysis, 26, (7), 1612-1622, (2014)
   

Paine AC

Tieppo A et al., Sustained in vivo release from imprinted therapeutic contact lenses.
Journal of Controlled Release, 157, (3), 391-397, (2012)
   

Paisner DA

O’Connor NA et al., Screening of 5-HT1A Receptor Antagonists using Molecularly Imprinted Polymers.
Journal of the American Chemical Society, 129, (6), 1680-1689, (2007)
   

Paiva MJN

Simões NS et al., Hollow mesoporous structured molecularly imprinted polymer as adsorbent in pipette-tip solid-phase extraction for the determination of antiretrovirals from plasma of HIV-infected patients.
Electrophoresis, 39, (20), 2581-2589, (2018)
   

Paiva VM

Moreira BM et al., Determination of Free Glycerol in Biodiesel by Molecularly Imprinted Polymer - Based Solid-Phase Extraction (SPE) Using an Enzymatic Spectrophotometric Assay.
Analytical Letters, 54, (10), 1654-1667, (2021)
   

Paixão TRLC

Bueno L et al., MIP-based electrochemical protein profiling.
Sensors and Actuators B: Chemical, 204, 88-95, (2014)
   

Salles MO et al., Development of a Molecularly Imprinted Modified Electrode to Evaluate Phenacetin Based on the Preconcentration of Acetaminophen.
Journal of the Brazilian Chemical Society, 27, (1), 54-61, (2016)
   

Grothe RA et al., Electroanalytical profiling of cocaine samples by means of an electropolymerized molecularly imprinted polymer using benzocaine as the template molecule.
Analyst, 146, (5), 1747-1759, (2021)
   

Pajooheshpour N

Bagheri H et al., Fabrication of a novel electrochemical sensing platform based on a core-shell nano-structured/molecularly imprinted polymer for sensitive and selective determination of ephedrine.
RSC Advances, 6, (56), 51135-51145, (2016)
   

Pak C

Lee HI et al., Rational design of ordered mesoporous carbon with controlled bimodal porosity via dual silica templating route.
Chemical Communications, (48), 6035-6037, (2005)
   

Pakade V

Pakade V et al., Selective removal of chromium (VI) from sulphates and other metal anions using an ion-imprinted polymer.
Water SA, 37, (4), 529-537, (2011)
   

Önnby L et al., Polymer composite adsorbents using particles of molecularly imprinted polymers or aluminium oxide nanoparticles for treatment of arsenic contaminated waters.
Water Research, 46, (13), 4111-4120, (2012)
   

Pakade V et al., Molecularly imprinted polymers targeting quercetin in high-temperature aqueous solutions.
Journal of Chromatography A, 1230, (1), 15-23, (2012)
   

Pakade V et al., Molecular imprinted polymer for solid-phase extraction of flavonol aglycones from Moringa oleifera extracts.
Journal of Separation Science, 36, (3), 548-555, (2013)
   

Madikizela L et al., Book chapter, Molecularly Imprinted Polymers for Pharmaceutical Compounds: Synthetic Procedures and Analytical Applications, 
In: Recent Research in Polymerization, Cancaya N (Ed.) InTechOpen: Ch. 3, 47-67, (2018)
   

Pakade VE

Pakade VE et al., Simple and efficient ion imprinted polymer for recovery of uranium from environmental samples.
Water Science And Technology, 65, (4), 728-736, (2012)
   

Pakade VE et al., Removal of Ni(II) Ions from Aqueous Solutions Using Ion Imprinted Polymer Prepared from Dual Vinyl Monomers.
Asian Journal of Scientific Research, 9, (4), 131-142, (2016)
   

Pakade VE et al., Quantitative determination of trace concentrations of quercetin from prickly pear skin complex sample extracts by application of molecularly imprinted polymers.
Journal of Environmental Chemical Engineering, 5, (1), 1186-1195, (2017)
   

Lesaoana M et al., Crosslinker-less surface-imprinted Macadamia derived activated carbons for trace Cr(III) removal from aqueous solution.
Environmental Technology & Innovation, 14, Article100336-(2019)
   

Madikizela LM et al., Synthesis of molecularly imprinted polymers for extraction of fluoroquinolones in environmental, food and biological samples.
Journal of Pharmaceutical and Biomedical Analysis, 208, Article114447-(2022)
   

Pakizevand N

Sid Kalal H et al., Adsorption of Strontium (II) on new ion-imprinted solid-phase support: determination, isotherms, thermodynamic and kinetic studies.
Caspian Journal of Environmental Sciences, 11, (1), 53-63, (2013)
   

Pakizvand N

Sid Kalal H et al., The Pre-concentration and determination of Iridium and Palladium in environmental water by imprinted polymer-based method.
International Journal of Environmental Science and Technology, 10, (5), 1091-1102, (2013)
   

Pal MR

Thakare SR et al., Simple synthesis of highly selective and fast Hg(II) removal polymer from aqueous solution.
Designed Monomers and Polymers, 18, (7), 650-660, (2015)
   

Pal S

Khan MS et al., Computational strategies for understanding the nature of interaction in dioxin imprinted nanoporous trappers.
Journal of Molecular Recognition, 28, (7), 427-437, (2015)
   

Khan MS et al., Quantum mechanical studies on dioxin-imprinted polymer precursor composites: Fundamental insights to enhance the binding strength and selectivity of biomarkers.
Journal of Molecular Recognition, 31, (11), Article e2736-(2018)
   

Palacios-Santander JM

Lahcen AA et al., Fast route for the synthesis of decorated nanostructured magnetic molecularly imprinted polymers using an ultrasound probe.
Ultrasonics Sonochemistry, 53, 226-236, (2019)
   

Lamaoui A et al., Study of solvent effect on the synthesis of magnetic molecularly imprinted polymers based on ultrasound probe: Application for sulfonamide detection.
Ultrasonics Sonochemistry, 58, Article104670-(2019)
   

Lamaoui A et al., Fast microwave-assisted synthesis of magnetic molecularly imprinted polymer for sulfamethoxazole.
Talanta, 232, Article122430-(2021)
   

Lamaoui A et al., Molecularly imprinted polymers based on polydopamine: Assessment of non-specific adsorption.
Microchemical Journal, 164, Article106043-(2021)
   

Palanisamy A

Rajendran A et al., Lipase Catalyzed Ester Synthesis for Food Processing Industries.
Brazilian Archives of Biology and Technology, 52, (1), 207-219, (2009)
   

Palaprat G

Palaprat G et al., Study of Hydrogen Bonding in Liquid Crystalline Solvent by Fourier Transform Infrared Spectroscopy.
Journal of Physical Chemistry A, 110, (47), 12887-12890, (2006)
   

Palaprat G et al., Introduction of unusual properties into polymers by the use of liquid-crystalline moieties.
Polymer International, 55, (10), 1191-1198, (2006)
   

Binet C et al., Benefit of liquid crystal moieties in the MIP technique.
Analytica Chimica Acta, 591, (1), 1-6, (2007)
   

Palaprat G et al., Enantioselective Absorption of Chirally Doped Liquid Crystalline Networks Studied by the Use of an Electronic Microbalance.
Journal of Physical Chemistry B, 111, (31), 9239-9243, (2007)
   

Mingotaud AF et al., Book chapter, Next generation molecular imprinted polymers: Examples of liquid crystalline materials and hydrogels for protein recognition, 
In: Molecular Recognition: Biotechnology, Chemical Engineering and Materials Applications, McEvoy JA (Ed.) Nova Science Publishers, Inc.: New York, Ch. 2, 45-77, (2011)
   

Palchetti I

Palchetti I et al., Book chapter, Biosensor Techniques for Environmental Monitoring, 
In: Nucleic Acid Biosensors for Environmental Pollution Monitoring, Mascini M, Palchetti I (Eds.) The Royal Society of Chemistry: Cambridge, Ch. 1, 1-16, (2011)
   

Palet C

Conesa A et al., Molecularly imprinted membranes (MIM) for the enantioseparation of selenoaminoacid compounds.
Desalination, 200, (1-3), 110-111, (2006)
   

Baltrons O et al., Molecularly imprinted polymer-liquid chromatography/fluorescence for the selective clean-up of hydroxylated polycyclic aromatic hydrocarbons in soils.
Analytical Methods, 5, (22), 6297-6305, (2013)
   

Palfinger C

Dickert F et al., Borderline applications of QCM-devices: synthetic antibodies for analytes in both nm- and mm-dimensions.
Sensors and Actuators B: Chemical, 95, (1-3), 20-24, (2003)
   

Dickert FL et al., Nano- and micro-structuring of sensor materials - from molecule to cell detection.
Synthetic Metals, 138, (1-2), 65-69, (2003)
   

Dickert FL et al., Chemical sensors - from molecules, complex mixtures to cells - supramolecular imprinting strategies.
Sensors, 3, (9), 381-392, (2003)
   

Dickert FL et al., Synthetic receptors for chemical sensors - subnano- and micrometre patterning by imprinting techniques.
Biosensors and Bioelectronics, 20, (6), 1040-1044, (2004)
   

Dickert FL et al., QCM array for on-line-monitoring of composting procedures.
Analyst, 129, (5), 432-437, (2004)
   

Palladino P

Palladino P et al., Cardiac Troponin T capture and detection in real-time via epitope-imprinted polymer and optical biosensing.
Biosensors and Bioelectronics, 106, 93-98, (2018)
   

Palladino P et al., Polydopamine: surface coating, molecular imprinting, and electrochemistry - successful applications and future perspectives in (bio)analysis.
Analytical and Bioanalytical Chemistry, 411, (19), 4327-4338, (2019)
   

Palladino P et al., Corrigendum to "Cardiac Troponin T capture and detection in real-time via epitope-imprinted polymer and optical biosensing" [Biosensors and Bioelectronics 106 (2018) 93-98].
Biosensors and Bioelectronics, 130, 427-427, (2019)
   

Baldoneschi V et al., Norepinephrine as new functional monomer for molecular imprinting: An applicative study for the optical sensing of cardiac biomarkers.
Biosensors and Bioelectronics, 157, Article112161-(2020)
   

Pallavicini P

Pesavento M et al., Proceeding, A new approach for selective optical fiber sensors based on localized surface plasmon resonance of gold nanostars in molecularly imprinted polymer, 
71-75, (2014)
   

Cennamo N et al., Sensitive detection of 2, 4, 6-trinitrotoluene by tridimensional monitoring of molecularly imprinted polymer with optical fiber and five-branched gold nanostars.
Sensors and Actuators B: Chemical, 208, 291-298, (2015)
   

Palm BS

Valtchev M et al., Development of sulfamethoxazole-imprinted polymers for the selective extraction from waters.
Journal of Hazardous Materials, 170, (2-3), 722-728, (2009)
   

Palmas P

Malosse L et al., Novel Stoichiometric, Noncovalent Pinacolyl Methylphosphonate Imprinted Polymers: A Rational Design by NMR Spectroscopy.
Macromolecules, 41, (21), 7834-7842, (2008)
   

Palmer CF

Palmer CF et al., Recent progress in the use of soluble ionic polymers as pseudostationary phases for electrokinetic chromatography.
Electrophoresis, 25, (23-24), 4086-4094, (2004)
   

Palmer CP

Palmer CP et al., Developments in the use of soluble ionic polymers as pseudo-stationary phases for electrokinetic chromatography and stationary phases for electrochromatography.
Journal of Chromatography A, 1044, (1-2), 159-176, (2004)
   

Palmer CP, Book chapter, Polymeric Pseudostationary Phases and Dendrimers, 
In: Electrokinetic Chromatography, Pyell U (Ed.) Wiley: 137-151, (2006)
   

Palmisano F

Monaci L et al., Determination of ochratoxin A in foods: state-of-the-art and analytical challenges.
Analytical and Bioanalytical Chemistry, 378, (1), 96-103, (2004)
   

Palo E

Beyazit S et al., Versatile Synthetic Strategy for Coating Upconverting Nanoparticles with Polymer Shells through Localized Photopolymerization by Using the Particles as Internal Light Sources.
Angewandte Chemie International Edition, 53, (34), 8919-8923, (2014)
   

Palomar-Pardavé ME

Gómez-Pineda LE et al., Quantum Chemical Calculations on the Interaction between Flavonol and Functional Monomers (Methacrylic Acid and 4-Vinylpyridine) in Molecularly Imprinted Polymers.
Molecules, 15, (6), 4017-4032, (2010)
   

Palombieri D

Alesci A et al., Extracts deriving from olive mill waste water and their effects on the liver of the goldfish Carassius auratus fed with hypercholesterolemic diet.
Natural Product Research, 28, (17), 1343-1349, (2014)
   

Palomino P

Chen ZH et al., Proceeding, Imprinted photonic crystals for levodropropizine sensing, 
Article number 6271015, (2012)
   

Pamidighantam B

Feng L et al., Microwave-assisted sol–gel synthesis for molecular imprinting.
Analytical and Bioanalytical Chemistry, 396, (4), 1607-1612, (2010)
   

Pan CP

Zhang HT et al., The Application of Molecularly Imprinted Polymer Sensor in Pesticide Detection.
Chinese Journal of Pesticide Science, 8, (1), 8-13, (2006)
   

Zhang HT et al., Retention behavior of phenoxyacetic herbicides on a molecularly imprinted polymer with phenoxyacetic acid as a dummy template molecule.
Bioorganic & Medicinal Chemistry, 15, (18), 6089-6095, (2007)
   

Zhang HT et al., Synthesis and characterization of molecularly imprinted polymers for phenoxyacetic acids.
International Journal of Molecular Sciences, 9, (1), 98-106, (2008)
   

Zhang HT et al., Food safety: Monitoring of organophosphate pesticide residues in crops and food.
Phosphorus Sulfur And Silicon And The Related Elements, 183, (2-3), 280-290, (2008)
   

Kang S et al., Preparation of molecularly imprinted polymers: Diethyl(3-methylureido)(phenyl)methylphosphonate as a dummy template for the recognition of its organophosphate pesticide analogs.
Journal of Applied Polymer Science, 124, (5), 3737-3743, (2012)
   

Zhang LJ et al., A review of sample preparation methods for the pesticide residue analysis in foods.
Central European Journal of Chemistry, 10, (3), 900-925, (2012)
   

Pan CS

Ou JJ et al., Determination of dl-tetrahydropalmatine in Corydalis yanhusuo by l-tetrahydropalmatine imprinted monolithic column coupling with reversed-phase high performance liquid chromatography.
Journal of Chromatography A, 1117, (2), 163-169, (2006)
   

Pan CW

Wang CX et al., Fe3O4@C Core-Shell Carbon Hybrid Materials as Magnetically Separable Adsorbents for the Removal of Dibenzothiophene in Fuels.
ACS Omega, 4, (1), 1652-1661, (2019)
   

Pan CZ

Pan CZ et al., Progress and development of analytical methods for gibberellins.
Journal of Separation Science, 40, (1), 346-360, (2017)
   

Pan DD

Zhu SS et al., Organotin Compounds Chromatographic Detection Methods Based on Molecular Imprinting Technique.
Journal of Ningbo University (Natural Science and Engineering Edition), 25, (3), 97-100, (2012)
   

Zhu SS et al., Synthesis and characterization of a molecularly imprinted polymer for the determination of trace tributyltin in seawater and seafood by liquid chromatography-tandem mass spectroscopy.
Journal of Chromatography B, 921-922, 21-26, (2013)
   

Zhu SS et al., Extraction of tributyltin by magnetic molecularly imprinted polymers.
Microchimica Acta, 180, (7-8), 545-553, (2013)
   

Lan HZ et al., Development of a novel magnetic molecularly imprinted polymer coating using porous zeolite imidazolate framework-8 coated magnetic iron oxide as carrier for automated solid phase microextraction of estrogens in fish and pork samples.
Journal of Chromatography A, 1365, 35-44, (2014)
   

Lan HZ et al., An automated solid-phase microextraction method based on magnetic molecularly imprinted polymer as fiber coating for detection of trace estrogens in milk powder.
Journal of Chromatography A, 1331, 10-18, (2014)
   

Zhang RR et al., Highly Permselective Membrane Surface Modification by Cold Plasma-Induced Grafting Polymerization of Molecularly Imprinted Polymer for Recognition of Pyrethroid Insecticides in Fish.
Analytical Chemistry, 86, (23), 11705-11713, (2014)
   

Xiao TT et al., Selective and sensitive determination of cypermethrin in fish via enzyme-linked immunosorbent assay-like method based on molecularly imprinted artificial antibody-quantum dot optosensing materials.
Biosensors and Bioelectronics, 75, 34-40, (2016)
   

Yang H et al., Determination of Tributyltin in Seafood Based on Magnetic Molecularly Imprinted Polymers Coupled with High Performance Liquid Chromatography-Inductively Coupled Plasma Mass Spectrometry.
Journal of Food Quality, 2017, ArticleNo7405475-(2017)
   

Yang H et al., Determination of Trace Tributyltin in Seafood by Molecularly Imprinted Polymer and High Performance Liquid Chromatography-inductively Coupled Plasma Mass Spectrometry.
Modern Food Science and Technology, 33, (2), 243-249, (2017)
   

Pan DD et al., Selective, sensitive, and fast determination of S-layer proteins by a molecularly imprinted photonic polymer coated film and a fiber-optic spectrometer.
Analytical and Bioanalytical Chemistry, 411, (29), 7737-7745, (2019)
   

Pan GQ

Pan GQ et al., Preparation of molecularly imprinted polymer microspheres via reversible addition-fragmentation chain transfer precipitation polymerization.
Polymer, 50, (13), 2819-2825, (2009)
   

Zu BY et al., Preparation of molecularly imprinted polymer microspheres via atom transfer radical precipitation polymerization.
Journal of Polymer Science Part A: Polymer Chemistry, 47, (13), 3257-3270, (2009)
   

Pan GQ et al., An efficient approach to obtaining water-compatible and stimuli-responsive molecularly imprinted polymers by the facile surface-grafting of functional polymer brushes via RAFT polymerization.
Biosensors and Bioelectronics, 26, (3), 976-982, (2010)
   

Pan GQ et al., Efficient One-Pot Synthesis of Water-Compatible Molecularly Imprinted Polymer Microspheres by Facile RAFT Precipitation Polymerization.
Angewandte Chemie International Edition, 50, (49), 11731-11734, (2011)
   

Pan GQ et al., Controlled synthesis of water-compatible molecularly imprinted polymer microspheres with ultrathin hydrophilic polymer shells via surface-initiated reversible addition-fragmentation chain transfer polymerization.
Soft Matter, 7, (18), 8428-8439, (2011)
   

Ma Y et al., Comparative study of the molecularly imprinted polymers prepared by reversible addition-fragmentation chain transfer ''bulk'' polymerization and traditional radical ''bulk'' polymerization.
Journal of Molecular Recognition, 26, (5), 240-251, (2013)
   

Ma Y et al., Narrowly Dispersed Hydrophilic Molecularly Imprinted Polymer Nanoparticles for Efficient Molecular Recognition in Real Aqueous Samples Including River Water, Milk, and Bovine Serum.
Angewandte Chemie International Edition, 52, (5), 1511-1514, (2013)
   

Pan GQ et al., Thermo-responsive molecularly imprinted nanogels for specific recognition and controlled release of proteins.
Soft Matter, 9, (14), 3840-3850, (2013)
   

Pan GQ et al., Thermo-Responsive Hydrogel Layers Imprinted with RGDS Peptide: A System for Harvesting Cell Sheets.
Angewandte Chemie International Edition, 52, (27), 6907-6911, (2013)
   

Pan GQ et al., Facile preparation of varisized thermo-responsive molecularly imprinted nanogels for specific recognition and controlled release of protein.
Journal of Controlled Release, 172, (1), e102-e103, (2013)
   

Chen W et al., Molecularly Imprinted Polymers with Stimuli-Responsive Affinity: Progress and Perspectives.
Polymers, 7, (9), 1689-1715, (2015)
   

Liu SC et al., Graphene oxide based molecularly imprinted polymers with double recognition abilities: The combination of covalent boronic acid and traditional non-covalent monomers.
Chemical Engineering Journal, 290, 220-231, (2016)
   

Wang JX et al., Molecularly imprinted fluorescent hollow nanoparticles as sensors for rapid and efficient detection [lambda]-cyhalothrin in environmental water.
Biosensors and Bioelectronics, 85, 387-394, (2016)
   

Yin YJ et al., Rationally designed hybrid molecularly imprinted polymer foam for highly efficient [lambda]-cyhalothrin recognition and uptake via twice imprinting strategy.
Chemical Engineering Journal, 286, 485-496, (2016)
   

Pan GQ et al., An Epitope-Imprinted Biointerface with Dynamic Bioactivity for Modulating Cell-Biomaterial Interactions.
Angewandte Chemie International Edition, 56, (50), 15959-15963, (2017)
   

Pan JM et al., Molecularly imprinted polymers as receptor mimics for selective cell recognition.
Chemical Society Reviews, 47, (15), 5574-5587, (2018)
   

Wang JX et al., Surface-imprinted fluorescence microspheres as ultrasensitive sensor for rapid and effective detection of tetracycline in real biological samples.
Sensors and Actuators B: Chemical, 263, 533-542, (2018)
   

Li RF et al., Advances in Molecularly Imprinting Technology for Bioanalytical Applications.
Sensors, 19, (1), ArticleNo177-(2019)
   

Wang JX et al., Molecularly Imprinted Fluorescent Test Strip for Direct, Rapid, and Visual Dopamine Detection in Tiny Amount of Biofluid.
Small, 15, (1), Article1803913-(2019)
   

Pan HB

Mao CY et al., The controlled drug release by pH-sensitive molecularly imprinted nanospheres for enhanced antibacterial activity.
Materials Science and Engineering: C, 77, 84-91, (2017)
   

Pan HC

Li JP et al., Molecularly Imprinted Electrochemical Luminescence Sensor Based On Signal Amplification for Selective Determination of Trace Gibberellin A3.
Analytical Chemistry, 84, (22), 9951-9955, (2012)
   

Zhang LM et al., A Molecularly Imprinting Sensor Based on Gate Controlled Electro-catalyzation.
Chinese Journal of Analytical Chemistry, 40, (7), 1025-1030, (2012)
   

Li JP et al., A sensitive electrochemical molecularly imprinted sensor based on catalytic amplification by silver nanoparticles for 3-indoleacetic acid determination.
Sensors and Actuators B: Chemical, 197, 109-115, (2014)
   

Li JP et al., A highly selective molecularly imprinted electrochemiluminescence sensor for ultra-trace beryllium detection.
Analytica Chimica Acta, 871, 51-56, (2015)
   

Li JP et al., Molecularly imprinted sensor based on Russian Matryoshka structured molecules for enhanced specific identification and double amplification in ultra-trace Tb3+ determination.
Biosensors and Bioelectronics, 109, 224-229, (2018)
   

Pan HH

Lin YC et al., Side chain functionality dominated the chromatography of N-protected amino acid on molecularly imprinted polymer.
Journal of Applied Polymer Science, 105, (6), 3519-3524, (2007)
   

Pan HH et al., Synthesis of molecularly imprinted polymer and its molecular recognition properties of N-acetylneuraminic acid.
E-Journal of Chemistry, 4, (4), 611-619, (2007)
   

Lee WC et al., Chromatographic characterization of molecularly imprinted polymers.
Analytical and Bioanalytical Chemistry, 390, (4), 1101-1109, (2008)
   

Pan HJ

Zhang H et al., Molecularly Imprinted Stationary Phase Prepared by Reverse Micro-Emulsion Polymerization for Selective Recognition of Gatifloxacin in Aqueous Media.
Journal of Chromatographic Science, 50, (6), 499-508, (2012)
   

Pan HQ

An FK et al., Application of molecular imprinting technology in food safety detection and analysis.
Food Research and Development, 30, (3), 154-157, (2009)
   

Pan HX

Zhao C et al., Using chiral magnetic surface molecularly imprinted polymers for chiral separation of gossypol.
SCIREA Journal of Chemistry, 4, (4), 113-123, (2019)
   

Pan HZ

Liang Y et al., A novel molecularly imprinted polymer composite based on polyaniline nanoparticles as sensitive sensors for parathion detection in the field.
Food Control, 133, Article108638-(2022)
   

Pan J

Xue XH et al., Effect of different preparation condition on SpA-molecularly imprinted polymer microspheres.
Journal of Chinese Electron Microscopy Society, 27, (5), 390-394, (2008)
   

Li C et al., Adsorption behaviors of Sr(II) in aqueous solution by attapulgite and its surface ion-imprinted polymer.
Journal of the Chinese Ceramic Society, 37, (10), 1705-1711, (2009)
   

Pan J et al., Recognition property and preparation of Staphylococcus aureus protein A-imprinted polyacrylamide polymers by inverse-phase suspension and bulk polymerization.
Polymer, 50, (11), 2365-2372, (2009)
   

Xue XH et al., Specific recognition of staphylococcus aureus by staphylococcus aureus protein A-imprinted polymers.
Reactive and Functional Polymers, 69, (3), 159-164, (2009)
   

Sun YJ et al., Recent advances and perspective in the study of the molecular imprinting of proteins.
Acta Pharmaceutica Sinica, 46, (2), 132-137, (2011)
   

Zhang Q et al., Preparation and Adsorption Properties of PA6/PSMA-OA Molecularly Imprinted Composite Membranes in Supercritical CO₂.
Bulletin of the Korean Chemical Society, 32, (9), 3348-3354, (2011)
   

Han JY et al., Preliminary investigations into surface molecularly imprinted nanoparticles for Helicobacter pylori eradication.
Acta Pharmaceutica Sinica B, 5, (6), 577-582, (2015)
   

Wu ZH et al., Preparation and evaluation of amoxicillin loaded dual molecularly imprinted nanoparticles for anti-Helicobacter pylori therapy.
International Journal of Pharmaceutics, 496, (2), 1006-1014, (2015)
   

Wu ZH et al., Recent advances and perspective in the study of the nano-reinforcing materials for molecular imprinting of proteins.
Acta Pharmaceutica Sinica, 50, (1), 15-20, (2015)
   

Pan JF

Liu QQ et al., A novel chitosan base molecularly imprinted membrane for selective separation of chlorogenic acid.
Separation and Purification Technology, 164, 70-80, (2016)
   

Pan JL

He CY et al., Application of molecularly imprinted polymers to solid-phase extraction of analytes from real samples.
Journal of Biochemical and Biophysical Methods, 70, (2), 133-150, (2007)
   

He CY et al., A method for coating colloidal particles with molecularly imprinted silica films.
Journal of Materials Chemistry, 18, (24), 2849-2854, (2008)
   

He CY et al., Molecularly imprinted silica prepared with immiscible ionic liquid as solvent and porogen for selective recognition of testosterone.
Talanta, 74, (5), 1126-1131, (2008)
   

Hu XG et al., Preparation and evaluation of solid-phase microextraction fiber based on molecularly imprinted polymers for trace analysis of tetracyclines in complicated samples.
Journal of Chromatography A, 1188, (2), 97-107, (2008)
   

Hu XG et al., Preparation and evaluation of propranolol molecularly imprinted solid-phase microextraction fiber for trace analysis of [beta]-blockers in urine and plasma samples.
Journal of Chromatography A, 1216, (2), 190-197, (2009)
   

Hu XG et al., Preparation of molecularly imprinted polymer coatings with the multiple bulk copolymerization method for solid-phase microextraction.
Journal of Applied Polymer Science, 120, (3), 1266-1277, (2011)
   

Hu YL et al., Novel applications of molecularly-imprinted polymers in sample preparation.
TrAC Trends in Analytical Chemistry, 43, 37-52, (2013)
   

Pan JL et al., A novel fractionized sampling and stacking strategy for online hyphenation of solid-phase-based extraction to ultra-high performance liquid chromatography for ultrasensitive analysis.
Journal of Chromatography A, 1316, 29-36, (2013)
   

Pan JM

Pan JM et al., Preparation of surface ion-imprinted attapulgite-supported polymer and its adsorption behaviors of Sr(II).
Chinese Journal of Reactive Polymers, 17, (2), 55-65, (2008)
   

Li CX et al., An ion-imprinted polymer supported by attapulgite with a chitosan incorporated sol-gel process for selective separation of Ce(III).
Chinese Chemical Letters, 20, (8), 985-989, (2009)
   

Li CX et al., Synthesis, characterization, and adsorption performance of Pb(II)-imprinted polymer in nano-TiO2 matrix.
Journal of Environmental Sciences, 21, (12), 1722-1729, (2009)
   

Li CX et al., A novel CeIII-imprinted polymer supported by attapulgite: synthesis, characterisation and adsorption behaviours towards CeIII in aqueous solution.
International Journal of Materials and Structural Integrity, 3, (4), 294-308, (2009)
   

Li CX et al., Strontium(II) ion surface-imprinted polymers supported by potassium tetratitanate whiskers: Synthesis, characterization and adsorption behaviours.
Adsorption Science & Technology, 27, (9), 845-859, (2009)
   

Xu PP et al., Molecularly-imprinted Material for Dibenzothiophene Recognition Prepared by Surface Imprinting Methods.
Adsorption Science & Technology, 27, (10), 975-987, (2009)
   

Li CX et al., Synthesis and characterisation of sodium trititanate whisker surface CdII ion-imprinted polymer and selective solid-phase extraction of cadmium.
International Journal of Materials and Structural Integrity, 4, (2-3), 291-307, (2010)
   

Liu Y et al., Synthesis and Adsorption Performance of Surface-Grafted Co(II)-Imprinted Polymer for Selective Removal of Cobalt.
Chinese Journal of Chemistry, 28, (4), 548-554, (2010)
   

Pan JM et al., Synthesis and applications of Ce(III)-imprinted polymer based on attapulgite as the sacrificial support material for selective separation of cerium(III) ions.
Microchimica Acta, 171, (1), 151-160, (2010)
   

Pan JM et al., Selective recognition of 2, 4-dichlorophenol from aqueous solution by uniformly sized molecularly imprinted microspheres with [beta]-cyclodextrin/attapulgite composites as support.
Chemical Engineering Journal, 162, (3), 910-918, (2010)
   

Pan JM et al., Selective Adsorption of Co(II) Ions by Whisker Surface Ion-Imprinted Polymer: Equilibrium and Kinetics Modeling.
Chinese Journal of Chemistry, 28, (12), 2483-2488, (2010)
   

Pan JM et al., Progress in the study of separation, enrichment and analysis of mid-low radioactive metallic elements.
Metallurgical Analysis, 30, (8), 35-44, (2010)
   

Pan JM et al., An ion-imprinted polymer based on palygorskite as a sacrificial support for selective removal of strontium(II).
Applied Clay Science, 50, (2), 260-265, (2010)
   

Zhang XJ et al., A Ce3+-imprinted functionalized potassium tetratitanate whisker sorbent prepared by surface molecularly imprinting technique for selective separation and determination of Ce3+.
Microchimica Acta, 169, (3), 289-296, (2010)
   

Zhang ZL et al., Analysis of Properties of Cadmium Adsorption onto Whisker Surface Ion-Imprinted Polymer by Inductively Coupled Plasma Atomic Emission Spectrometry.
Spectroscopy and Spectral Analysis, 30, (3), 792-796, (2010)
   

Guan W et al., Selective recognition of 4-nitrophenol from aqueous solution by molecularly imprinted polymers with functionalized tetratitanate whisker composites as support.
Journal of Separation Science, 34, (11), 1244-1252, (2011)
   

Guo WL et al., Selective adsorption and separation of BPA from aqueous solution using novel molecularly imprinted polymers based on kaolinite/Fe3O4 composites.
Chemical Engineering Journal, 171, (2), 603-611, (2011)
   

Huo PW et al., Enhanced photodegradation of antibiotics solution under visible light with Fe2+/Fe3+ immobilized on TiO2/fly-ash cenospheres by using ions imprinting technology.
Chemical Engineering Journal, 172, (2-3), 615-622, (2011)
   

Li CX et al., Synthesis and applications of novel attapulgite-supported Co(II)-imprinted polymers for selective solid-phase extraction of cobalt(II) from aqueous solutions.
International Journal of Environmental Analytical Chemistry, 91, (11), 1035-1049, (2011)
   

Pan JM et al., Selective Recognition of 2, 4, 6-Trichlorophenol by Molecularly Imprinted Polymers Based on Magnetic Halloysite Nanotubes Composites.
Journal of Physical Chemistry C, 115, (13), 5440-5449, (2011)
   

Pan JM et al., Magnetic molecularly imprinted polymers based on attapulgite/Fe3O4 particles for the selective recognition of 2, 4-dichlorophenol.
Chemical Engineering Journal, 174, (1), 68-75, (2011)
   

Pan JM et al., Molecularly imprinted polymers based on magnetic fly-ash-cenosphere composites for bisphenol A recognition.
Journal of Materials Chemistry, 21, (39), 15741-15751, (2011)
   

Pan JM et al., Selective adsorption of 2, 6-dichlorophenol by surface imprinted polymers using polyaniline/silica gel composites as functional support: Equilibrium, kinetics, thermodynamics modeling.
Chemical Engineering Journal, 172, (2-3), 847-855, (2011)
   

Wang X et al., Selective Removal of 3-Chlorophenol from Aqueous Solution Using Surface Molecularly Imprinted Microspheres.
Journal of Chemical & Engineering Data, 56, (6), 2793-2801, (2011)
   

Wang X et al., Selective recognition of sesamol using molecularly imprinted polymers containing magnetic wollastonite.
Journal of Separation Science, 34, (22), 3287-3294, (2011)
   

Wang X et al., Preparation of magnetic imprinted polymer particles via microwave heating initiated polymerization for selective enrichment of 2-amino-4-nitrophenol from aqueous solution.
Chemical Engineering Journal, 178, (1), 85-92, (2011)
   

Xie ZM et al., Preparation of Oridonin molecularly imprinted polymers and study on its molecular recognition properties.
Chemical Research and Application, 23, (10), 1349-1352, (2011)
   

Xu WZ et al., A molecularly imprinted polymer based on TiO2 as a sacrificial support for selective recognition of dibenzothiophene.
Chemical Engineering Journal, 172, (1), 191-198, (2011)
   

Xu WZ et al., Preparation and evaluation of a novel surface-imprinted polymer for selective adsorption of dibenzothiophene.
Microchimica Acta, 175, (1), 167-175, (2011)
   

Dai JD et al., Preparation of molecularly imprinted nanoparticles with superparamagnetic susceptibility through atom transfer radical emulsion polymerization for the selective recognition of tetracycline from aqueous medium.
Journal of Hazardous Materials, 205 - 206, (1), 179-188, (2012)
   

Guan W et al., Molecularly imprinted polymer surfaces as solid-phase extraction sorbents for the extraction of 2-nitrophenol and isomers from environmental water.
Journal of Separation Science, 35, (4), 490-497, (2012)
   

Huo PW et al., Preparation photocatalyst of selected photodegradation antibiotics by molecular imprinting technology onto TiO2/fly-ash cenospheres.
Chemical Engineering Journal, 189-190, (1), 75-83, (2012)
   

Huo PW et al., Preparation molecular/ions imprinted photocatalysts of La3+@POPD/TiO2/fly-ash cenospheres: Preferential photodegradation of TCs antibiotics.
Chemical Engineering Journal, 198-199, (1), 73-80, (2012)
   

Li XX et al., Removal of cefalexin using yeast surface-imprinted polymer prepared by atom transfer radical polymerization.
Journal of Separation Science, 35, (20), 2787-2795, (2012)
   

Li XX et al., Surface molecular imprinting onto magnetic yeast composites via atom transfer radical polymerization for selective recognition of cefalexin.
Chemical Engineering Journal, 198-199, 503-511, (2012)
   

Pan JM et al., Selective recognition of 2, 4, 5-trichlorophenol by temperature responsive and magnetic molecularly imprinted polymers based on halloysite nanotubes.
Journal of Materials Chemistry, 22, (8), 3360-3369, (2012)
   

Pan JM et al., Switched recognition and release ability of temperature responsive molecularly imprinted polymers based on magnetic halloysite nanotubes.
Journal of Materials Chemistry, 22, (33), 17167-17175, (2012)
   

Xu LC et al., Preparation of thermal-responsive magnetic molecularly imprinted polymers for selective removal of antibiotics from aqueous solution.
Journal of Hazardous Materials, 233-234, 48-56, (2012)
   

Xu LC et al., Composites of Silica and Molecularly Imprinted Polymers for Degradation of Sulfadiazine.
Journal of Physical Chemistry C, 116, (48), 25309-25318, (2012)
   

Xu LC et al., Magnetic ZnO surface-imprinted polymers prepared by ARGET ATRP and the application for antibiotics selective recognition.
RSC Advances, 2, (13), 5571-5579, (2012)
   

Hang H et al., Selective separation of lambdacyhalothrin by porous/magnetic molecularly imprinted polymers prepared by Pickering emulsion polymerization.
Journal of Separation Science, 36, (19), 3285-3294, (2013)
   

He MQ et al., Synthesis and characterization of molecularly imprinted polymers for aminotriazole.
Ion Exchange and Adsorption, 29, (2), 131-139, (2013)
   

Liu CB et al., Molecular Imprinting in Fluorescent Particle Stabilized Pickering Emulsion for Selective and Sensitive Optosensing of [lambda]-Cyhalothrin.
Journal of Physical Chemistry C, 117, (20), 10445-10453, (2013)
   

Lu ZY et al., Preparation and performance of a novel magnetic conductive imprinted photocatalyst for selective photodegradation of antibiotic solution.
RSC Advances, 3, (40), 18373-18382, (2013)
   

Pan JM et al., Fabrication and evaluation of temperature responsive molecularly imprinted sorbents based on surface of yeast via surface-initiated AGET ATRP.
Applied Surface Science, 287, 211-217, (2013)
   

Pan JM et al., Fabrication and Evaluation of Magnetic/Hollow Double-Shelled Imprinted Sorbents Formed by Pickering Emulsion Polymerization.
Langmuir, 29, (25), 8170-8178, (2013)
   

Pan JM et al., Study on the nonylphenol removal from aqueous solution using magnetic molecularly imprinted polymers based on fly-ash-cenospheres.
Chemical Engineering Journal, 223, 824-832, (2013)
   

Pan JM, Proceeding, Molecularly-Imprinted Material for Dibenzothiophene Recognition Prepared on Potassium Tetratitanate Surface, 
571-576, (2013)
   

Song YJ et al., Ion-Imprinted Polymers Based on Hollow Silica with Yeasts as Sacrificial Supports for Sr2+ Selective Adsorption.
Journal of Inorganic and Organometallic Polymers and Materials, 23, (6), 1325-1334, (2013)
   

Wei X et al., Research progress of surface molecular imprinting technique in analytical chemistry.
Ion Exchange and Adsorption, 29, (2), 183-192, (2013)
   

Zhang WL et al., Novel surface molecularly imprinted polymers as solid-phase extraction sorbents for selective extraction of dihydroxybenzenes from environmental water samples.
Fresenius Environmental Bulletin, 22, (8), 2324-2333, (2013)
   

Cao ZJ et al., Preparation of Magnetic Imprinted Core-Shell Particles Through Reverse Atom Transfer Radical Precipitation Polymerization for Selective Removal of Sulfamethazine.
Journal of Computational and Theoretical Nanoscience, 6, (8), 657-665, (2014)
   

Dai JD et al., Narrowly dispersed imprinted microspheres with hydrophilic polymer brushes for the selective removal of sulfamethazine.
RSC Advances, 4, (4), 1965-1973, (2014)
   

Dai JD et al., Highly-controllable imprinted polymer nanoshell at the surface of magnetic halloysite nanotubes for selective recognition and rapid adsorption of tetracycline.
RSC Advances, 4, (16), 7967-7978, (2014)
   

Gan MY et al., Molecularly imprinted polymers derived from lignin-based Pickering emulsions and their selectively adsorption of lambda-cyhalothrin.
Chemical Engineering Journal, 257, 317-327, (2014)
   

Gao L et al., A core-shell surface magnetic molecularly imprinted polymers with fluorescence for [lambda]-cyhalothrin selective recognition.
Analytical and Bioanalytical Chemistry, 406, (28), 7213-7220, (2014)
   

Liu CB et al., A simple and sensitive surface molecularly imprinted polymers based fluorescence sensor for detection of [lambda]-Cyhalothrin.
Talanta, 125, 14-23, (2014)
   

Liu XL et al., Selective degradation of ciprofloxacin with modified NaCl/TiO2 photocatalyst by surface molecular imprinted technology.
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 441, 420-426, (2014)
   

Pan JM et al., Magnetic molecularly imprinted microcapsules derived from Pickering emulsion polymerization and their novel adsorption characteristics for [lambda]-cyhalothrin.
RSC Advances, 4, (9), 4435-4443, (2014)
   

Pan JM et al., Molecularly imprinted polymer foams with well-defined open-cell structure derived from Pickering HIPEs and their enhanced recognition of [lambda]-cyhalothrin.
Chemical Engineering Journal, 253, 138-147, (2014)
   

Wang J et al., Surface molecularly imprinted polymers based on yeast prepared by atom transfer radical emulsion polymerization for selective recognition of ciprofloxacin from aqueous medium.
Journal of Applied Polymer Science, 131, (11), Article No 40310-(2014)
   

Wei X et al., Synthesis of molecularly imprinted silica nanospheres embedded mercaptosuccinic acid-coated CdTe quantum dots for selective recognition of [lambda]-cyhalothrin.
Journal of Luminescence, 153, 326-332, (2014)
   

Wu YL et al., Fabrication and Evaluation of Artemisinin-Imprinted Composite Membranes by Developing a Surface Functional Monomer-Directing Prepolymerization System.
Langmuir, 30, (49), 14789-14796, (2014)
   

Wu YL et al., Fabrication and evaluation of molecularly imprinted regenerated cellulose composite membranes via atom transfer radical polymerization.
Chinese Chemical Letters, 25, (2), 273-278, (2014)
   

Xie QJ et al., Molecularly imprinted [beta]-cyclodextrin/Kaoline particles for the selective recognition and binding of bisphenol A.
The Canadian Journal of Chemical Engineering, 92, (4), 720-728, (2014)
   

Zhu WJ et al., Magnetic molecularly imprinted microspheres via yeast stabilized Pickering emulsion polymerization for selective recognition of [lambda]-cyhalothrin.
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 453, 27-36, (2014)
   

Zou YL et al., Magnetic and hydrophilic imprinted particles via ATRP at room temperature for selective separation of sulfamethazine.
Colloid & Polymer Science, 292, (2), 333-342, (2014)
   

Chen W et al., Molecularly Imprinted Polymers with Stimuli-Responsive Affinity: Progress and Perspectives.
Polymers, 7, (9), 1689-1715, (2015)
   

Ou HX et al., Selective Removal of Erythromycin by Magnetic Imprinted Polymers Synthesized from Chitosan-Stabilized Pickering Emulsion.
Journal of Hazardous Materials, 289, 28-37, (2015)
   

Pan JM et al., Thermoresponsive and magnetic molecularly imprinted polymers based on iron oxide encapsulated carbon nanotubes as a matrix for the selective adsorption and controlled release of 2, 4, 5-trichlorophenol.
Journal of Applied Polymer Science, 132, (27), ArticleNo42087-(2015)
   

Pan JM et al., Fabrication and evaluation of molecularly imprinted multi-hollow microspheres adsorbents with tunable inner pore structures derived from templating Pickering double emulsions.
Chemical Engineering Journal, 266, 299-308, (2015)
   

Wang JX et al., Optical Detection of [lambda]-Cyhalothrin by Core-Shell Fluorescent Molecularly Imprinted Polymers in Chinese Spirits.
Journal of Agricultural and Food Chemistry, 63, (9), 2392-2399, (2015)
   

Wang JX et al., Thermo-responsive and magnetic molecularly imprinted Fe3O4@carbon nanospheres for selective adsorption and controlled release of 2, 4, 5-trichlorophenol.
Journal of Industrial and Engineering Chemistry, 25, 321-328, (2015)
   

Wei X et al., Highly-controllable imprinted polymer nanoshell at the surface of silica nanoparticles based room-temperature phosphorescence probe for detection of 2, 4-dichlorophenol.
Analytica Chimica Acta, 870, 83-91, (2015)
   

Yu P et al., Preparation and characterization of molecularly-imprinted magnetic microspheres for adsorption of 2, 4, 6-trichlorophenol from aqueous solutions.
Korean Journal of Chemical Engineering, 32, (4), 767-776, (2015)
   

Yu P et al., Magnetic Molecularly Imprinted Polymer Beads Obtained by Suspension Polymerization for the Adsorption of 2, 4, 6-Trichlorophenol from an Aqueous Solution in a Fixed-bed Column.
Adsorption Science & Technology, 33, (3), 321-336, (2015)
   

Zheng XD et al., Silica nanoparticles doped with a europium(III) complex and coated with an ion imprinted polymer for rapid determination of copper(II).
Microchimica Acta, 182, (3-4), 753-761, (2015)
   

Zhu WJ et al., Well-designed multihollow magnetic imprinted microspheres based on cellulose nanocrystals (CNCs) stabilized Pickering double emulsion polymerization for selective adsorption of bifenthrin.
Chemical Engineering Journal, 276, 249-260, (2015)
   

Zhu YZ et al., Facile synthesis of eggshell-stabilized erythromycin-based imprinted composites for recognition and separation applications.
RSC Advances, 5, (108), 89030-89040, (2015)
   

Dai JD et al., Novel pitaya-inspired well-defined core-shell nanospheres with ultrathin surface imprinted nanofilm from magnetic mesoporous nanosilica for highly efficient chloramphenicol removal.
Chemical Engineering Journal, 284, 812-822, (2016)
   

Liu SC et al., Graphene oxide based molecularly imprinted polymers with double recognition abilities: The combination of covalent boronic acid and traditional non-covalent monomers.
Chemical Engineering Journal, 290, 220-231, (2016)
   

Pan JM et al., Hierarchical porous molecule/ion imprinted polymers with double specific binding sites: Combination of Pickering HIPEs template and pore-filled strategy.
Chemical Engineering Journal, 301, 210-221, (2016)
   

Wang JX et al., Molecularly imprinted fluorescent hollow nanoparticles as sensors for rapid and efficient detection [lambda]-cyhalothrin in environmental water.
Biosensors and Bioelectronics, 85, 387-394, (2016)
   

Yin YJ et al., Rationally designed hybrid molecularly imprinted polymer foam for highly efficient [lambda]-cyhalothrin recognition and uptake via twice imprinting strategy.
Chemical Engineering Journal, 286, 485-496, (2016)
   

Zheng XD et al., Efficient adsorption and separation of dysprosium from NdFeB magnets in an acidic system by ion imprinted mesoporous silica sealed in a dialysis bag.
Green Chemistry, 18, (18), 5031-5040, (2016)
   

Cui YH et al., Facile synthesis of imprinted submicroparticles blend polyvinylidene fluoride membranes at ambient temperature for selective adsorption of methyl p-hydroxybenzoate.
Korean Journal of Chemical Engineering, 34, (3), 600-608, (2017)
   

Li X et al., Impedimetric Enzyme-Free Detection of Glucose via a Computation-Designed Molecularly Imprinted Electrochemical Sensor Fabricated on Porous Ni Foam.
Electroanalysis, 29, (5), 1243-1251, (2017)
   

Liu SC et al., Two Are Better than One: Halloysite Nanotubes-Supported Surface Imprinted Nanoparticles Using Synergy of Metal Chelating and Low pKa Boronic Acid Monomers for Highly Specific Luteolin Binding under Neutral Condition.
ACS Applied Materials & Interfaces, 9, (38), 33191-33202, (2017)
   

Liu Y et al., A novel dual temperature responsive mesoporous imprinted polymer for Cd(II) adsorption and temperature switchable controlled separation and regeneration.
Chemical Engineering Journal, 328, 11-24, (2017)
   

Mao YL et al., Selective Adsorption and Separation of Ciprofloxacin by Molecularly Imprinted Polymers Based on Magnetic Kaolinite Composites.
Chinese Journal of Inorganic Chemistry, 33, (1), 81-88, (2017)
   

Meng MJ et al., Fabrication of submicrosized imprinted spheres attached polypropylene membrane using "two-dimensional" molecular imprinting method for targeted separation.
Adsorption Science & Technology, 35, (1-2), 162-177, (2017)
   

Qiu H et al., A precise and efficient detection of Beta-Cyfluthrin via fluorescent molecularly imprinted polymers with allyl fluorescein as functional monomer in agricultural products.
Food Chemistry, 217, 620-627, (2017)
   

Wu YL et al., Porous and Magnetic Molecularly Imprinted Polymers via Pickering High Internal Phase Emulsions Polymerization for Selective Adsorption of [lambda]-Cyhalothrin.
Frontiers in Chemistry, 5, ArticleNo18-(2017)
   

Zhu HJ et al., Ion/molecule imprinted polymers with double binding sites via twice imprinting strategy for selective and simultaneous removal of [lambda]-cyhalothrin and Cu(II).
Journal of Industrial and Engineering Chemistry, 49, 198-207, (2017)
   

Bai X et al., Specific uptake luteolin by boronate affinity-based single-hole hollow imprinted polymers sealed in dialysis bags.
Chemical Engineering Journal, 353, 911-919, (2018)
   

Liu JX et al., A versatile strategy to fabricate dual-imprinted porous adsorbent for efficient treatment co-contamination of [lambda]-cyhalothrin and copper(II).
Chemical Engineering Journal, 332, 517-527, (2018)
   

Pan JM et al., Molecularly imprinted polymers as receptor mimics for selective cell recognition.
Chemical Society Reviews, 47, (15), 5574-5587, (2018)
   

Wang JX et al., Surface-imprinted fluorescence microspheres as ultrasensitive sensor for rapid and effective detection of tetracycline in real biological samples.
Sensors and Actuators B: Chemical, 263, 533-542, (2018)
   

Wang YY et al., Calix[4]arenes functionalized dual-imprinted mesoporous film for the simultaneous selective recovery of lithium and rubidium.
Applied Organometallic Chemistry, 32, (10), ArticleNoe4511-(2018)
   

Xu XC et al., A facile strategy toward ion-imprinted hierarchical mesoporous material via dual-template method for simultaneous selective extraction of lithium and rubidium.
Journal of Cleaner Production, 171, 264-274, (2018)
   

Zhu HJ et al., Magnetic nanoparticles combining teamed boronate affinity and surface imprinting for efficient selective recognition of glycoproteins under physiological pH.
Chemical Engineering Journal, 346, 317-328, (2018)
   

He PY et al., Rational design and fabrication of surface molecularly imprinted polymers based on multi-boronic acid sites for selective capture glycoproteins.
Chemical Engineering Journal, 367, 55-63, (2019)
   

Huang YK et al., A SPE Method with Two MIPs in Two Steps for Improving the Selectivity of MIPs.
Analytical Chemistry, 91, (13), 8436-8442, (2019)
   

Meng MJ et al., Selective recognition of salicylic acid employing new fluorescent imprinted membrane functionalized with poly(amidoamine) (PAMAM)-encapsulated Eu(TTA)3phen.
Journal of Luminescence, 208, 24-32, (2019)
   

Wang P et al., Double affinity integrated MIPs nanoparticles for specific separation of glycoproteins: A combination of synergistic multiple bindings and imprinting effect.
Chemical Engineering Journal, 358, 143-152, (2019)
   

Wang P et al., Janus silica nanosheets-based MMIPs platform for synergetic selective capture and fast separation of 2'-deoxyadenosine: Two different components segmented on the surface of one object.
Chemical Engineering Journal, 369, 793-802, (2019)
   

Yao JT et al., Janus-like boronate affinity magnetic molecularly imprinted nanobottles for specific adsorption and fast separation of luteolin.
Chemical Engineering Journal, 356, 436-444, (2019)
   

Zheng XD et al., Oxidized carbon materials cooperative construct ionic imprinted cellulose nanocrystals films for efficient adsorption of Dy(III).
Chemical Engineering Journal, 381, Article122669-(2020)
   

Cui JY et al., Fabrication of multi-functional imprinted composite membrane for selective tetracycline and oil-in-water emulsion separation.
Composites Communications, 28, Article100985-(2021)
   

Wu YL et al., Mixed matrix nanocomposite imprinted membranes with multilevel hierarchical structure for high-efficiency selective recognition and separation: A bioinspired dual-imprinted strategy.
Microporous And Mesoporous Materials, 326, Article111393-(2021)
   

Pan JP

Wei X et al., Composites of surface imprinting polymer capped Mn-doped ZnS quantum dots for room-temperature phosphorescence probing of 2, 4, 5-trichlorophenol.
Journal of Luminescence, 155, 298-304, (2014)
   

Wang RY et al., Molecularly imprinted nanocapsule mimicking phosphotriesterase for the catalytic hydrolysis of organophosphorus pesticides.
European Polymer Journal, 110, 1-8, (2019)
   

Zhang X et al., Multifunctional oligomer immobilized on quartz crystal microbalance: a facile and stabilized molecular imprinting strategy for glycoprotein detection.
Analytical and Bioanalytical Chemistry, 411, (17), 3941-3949, (2019)
   

Zheng SJ et al., Ag(I) Pyridine-Amidoxime Complex as the Catalysis Activity Domain for the Rapid Hydrolysis of Organothiophosphate-Based Nerve Agents: Mechanistic Evaluation and Application.
ACS Applied Materials & Interfaces, 13, (29), 34428-34437, (2021)
   

Pan JR

Wang L et al., Rapid and selective determination of melamine from eggs and milk based on magnetic surface molecularly imprinting technology.
Analytical Methods, 9, (48), 6839-6848, (2017)
   

Pan JX

Wei JR et al., Ratiometric fluorescence for sensitive and selective detection of mitoxantrone using a MIP@rQDs@SiO2 fluorescence probe.
Sensors and Actuators B: Chemical, 244, 31-37, (2017)
   

Pan JY

Pan JY et al., A novel Pb(II)-imprinted IPN for selective preconcentration of lead from water and sediments.
International Journal of Environmental Analytical Chemistry, 86, (11), 855-865, (2006)
   

Pan JY et al., Ion-imprinted interpenetrating polymer networks for preconcentration and determination of Cd(II) by flame atomic absorption spectrometry.
Chemia Analityczna, 51, (5), 701-713, (2006)
   

Pan K

Liu YX et al., Layer-by-Layer Surface Molecular Imprinting on Polyacrylonitrile Nanofiber Mats.
The Journal of Physical Chemistry A, 119, (25), 6661-6667, (2015)
   

Pan LG

Zhao L et al., Book chapter, Application of Molecular Imprinting Technique in Organophosphorus Pesticides Detection, 
In: Computer and Computing Technologies in Agriculture IV, Li DL, Liu YD, Chen YY (Eds.) Springer: Boston, 290-295, (2011)
   

Zhao L et al., Proceeding, MISPE Combined with GCMS for Analysis of Organophosphorus Pesticides from Environmental Water Sample, 
Cao Z, Cao XQ, Sun LX, He YH (Eds.), 3216-3220, (2011)
   

Pan LL

Liang YL et al., Molecular imprinting technology and its application in terpenoids.
China Journal of Chinese Materia Medica, 43, (2), 267-273, (2018)
   

Sun CH et al., A biomimetic fluorescent nanosensor based on imprinted polymers modified with carbon dots for sensitive detection of alpha-fetoprotein in clinical samples.
Analyst, 144, (22), 6760-6772, (2019)
   

Pan LL et al., Modeling rapid and selective capture of nNOS-PSD-95 uncouplers from Sanhuang Xiexin decoction by novel molecularly imprinted polymers based on metal-organic frameworks.
RSC Advances, 10, (13), 7671-7681, (2020)
   

Pan LP

Pu P et al., Preparation and Evaluation of a Stable Solid State Ion Selective Electrode of Polypyrrole/Electrochemically Reduced Graphene/Glassy Carbon Substrate for Soil Nitrate Sensing.
International Journal of Electrochemical Science, 11, 4779-4793, (2016)
   

Pan LS

Pan LS et al., Molecular recognition characteristics and solid-phase extraction ability of luteolin imprinted polymer.
Journal of Chemical Engineering of Chinese Universities, 23, (2), 360-364, (2009)
   

Ou SH et al., Molecularly imprinted electrochemical sensor, formed on Ag screen-printed electrodes, for the enantioselective recognition of d and l phenylalanine.
Biosensors and Bioelectronics, 105, 143-150, (2018)
   

Pan MF

Wang JP et al., Preparation of a novel molecularly imprinted polymer by a sol-gel process for on-line solid-phase extraction coupled with high performance liquid chromatography to detect trace enrofloxacin in fish and chicken samples.
Microchimica Acta, 166, (3), 295-302, (2009)
   

Pan MF et al., Synthesis and characterization of a molecularly imprinted polymer and its application as SPE enrichment sorbent for determination of trace methimazole in pig samples using HPLC-UV.
Journal of Chromatography B, 878, (19), 1531-1536, (2010)
   

Qian K et al., Preparation and application of a molecularly imprinted polymer for the determination of trace metolcarb in food matrices by high performance liquid chromatography.
Journal of Separation Science, 33, (14), 2079-2085, (2010)
   

Fang GZ et al., Substitution of Antibody with Molecularly Imprinted Film in Enzyme-Linked Immunosorbent Assay for Determination of Trace Ractopamine in Urine and Pork Samples.
Food Analytical Methods, 4, (4), 590-597, (2011)
   

Pan MF et al., Novel amperometric sensor using metolcarb-imprinted film as the recognition element on a gold electrode and its application.
Analytica Chimica Acta, 690, (2), 175-181, (2011)
   

Wang JP et al., Development of a Biomimetic Enzyme-linked Immunosorbent Assay Method for the Determination of Methimazole in Urine Sample.
Journal of the Chinese Chemical Society, 58, (4), 463-469, (2011)
   

Zhu HP et al., Preparation of a molecularly imprinted polymer using TMB as a dummy template and its application as SPE sorbent for determination of six PBBs in water and fish samples.
Analytical Methods, 3, (2), 393-399, (2011)
   

Kong LJ et al., An electrochemical sensor for rapid determination of ractopamine based on a molecularly imprinted electrosynthesized o-aminothiophenol film.
Analytical and Bioanalytical Chemistry, 404, (6), 1653-1660, (2012)
   

Liu HL et al., Molecularly imprinted polymer on ionic liquid-modified CdSe/ZnS quantum dots for the highly selective and sensitive optosensing of tocopherol.
Journal of Materials Chemistry, 22, (37), 19882-19887, (2012)
   

Pan MF et al., Electrochemical sensor using methimazole imprinted polymer sensitized with MWCNTs and Salen-Co(III) as recognition element.
Biosensors and Bioelectronics, 31, (1), 11-16, (2012)
   

Gao XY et al., An ionic liquid modified dummy molecularly imprinted polymer as a solid-phase extraction material for the simultaneous determination of nine organochlorine pesticides in environmental and food samples.
Analytical Methods, (2013)
   

Liu HL et al., Molecularly imprinted polymer on ionic liquid-modified CdSe/ZnS quantum dots for the highly selective and sensitive optosensing of tocopherol (vol 22, pg 19882, 2012).
Journal of Materials Chemistry A, 1, (48), 15562-15562, (2013)
   

Yang YK et al., Electrochemical sensor based on molecularly imprinted polymer film via sol-gel technology and multi-walled carbon nanotubes-chitosan functional layer for sensitive determination of quinoxaline-2-carboxylic acid.
Biosensors and Bioelectronics, 47, 475-481, (2013)
   

Zhan J et al., Preparation of a semicovalent, molecularly surface imprinted polymer for the rapid determination of trace acid orange II in food and environmental samples.
Analytical and Bioanalytical Chemistry, 405, (19), 6353-6363, (2013)
   

Dai J et al., Development and Application of Quartz Crystal Microbalance Sensor Based on Novel Molecularly Imprinted Sol-Gel Polymer for Rapid Detection of Histamine in Foods.
Journal of Agricultural and Food Chemistry, 62, (23), 5269-5274, (2014)
   

Fang GZ et al., A novel molecularly imprinted polymer on CdSe/ZnS quantum dots for highly selective optosensing of mycotoxin zearalenone in cereal samples.
RSC Advances, 4, (6), 2764-2771, (2014)
   

Kong LJ et al., Molecularly imprinted quartz crystal microbalance sensor based on poly(o-aminothiophenol) membrane and Au nanoparticles for ractopamine determination.
Biosensors and Bioelectronics, 51, 286-292, (2014)
   

Yang YK et al., Sensitive and selective electrochemical determination of quinoxaline-2-carboxylic acid based on bilayer of novel poly(pyrrole) functional composite using one-step electro-polymerization and molecularly imprinted poly(o-phenylenediamine).
Analytica Chimica Acta, 806, 136-143, (2014)
   

Kong LJ et al., Electrochemical sensor based on a bilayer of PPY-MWCNTs-BiCoPc composite and molecularly imprinted PoAP for sensitive recognition and determination of metolcarb.
RSC Advances, 5, (15), 11498-11505, (2015)
   

Pan MF et al., Molecularly imprinted biomimetic QCM sensor involving a poly(amidoamine) dendrimer as a functional monomer for the highly selective and sensitive determination of methimazole.
Sensors and Actuators B: Chemical, 207, (Part A), 588-595, (2015)
   

Qian K et al., Metal-organic frameworks supported surface-imprinted nanoparticles for the sensitive detection of metolcarb.
Biosensors and Bioelectronics, 79, 359-363, (2016)
   

Xu LH et al., One-pot synthesis of carbon dots-embedded molecularly imprinted polymer for specific recognition of sterigmatocystin in grains.
Biosensors and Bioelectronics, 77, 950-956, (2016)
   

Yun YG et al., Molecularly imprinted electrodeposition o-aminothiophenol sensor for selective and sensitive determination of amantadine in animal-derived foods.
Sensors and Actuators B: Chemical, 238, 32-39, (2017)
   

Jin XC et al., A molecularly imprinted electrochemiluminescence sensor based on upconversion nanoparticles enhanced by electrodeposited rGO for selective and ultrasensitive detection of clenbuterol.
Biosensors and Bioelectronics, 102, 357-364, (2018)
   

Pan MF et al., Reproducible Molecularly Imprinted QCM Sensor for Accurate, Stable, and Sensitive Detection of Enrofloxacin Residue in Animal-Derived Foods.
Food Analytical Methods, 11, (2), 495-503, (2018)
   

Pan MF et al., Reproducible Molecularly Imprinted Piezoelectric Sensor for Accurate and Sensitive Detection of Ractopamine in Swine and Feed Products.
Sensors, 18, (6), ArticleNo1870-(2018)
   

Yun YG et al., An electrodeposited molecularly imprinted quartz crystal microbalance sensor sensitized with AuNPs and rGO material for highly selective and sensitive detection of amantadine.
RSC Advances, 8, (12), 6600-6607, (2018)
   

Gu Y et al., Electrochemiluminescence sensor based on upconversion nanoparticles and oligoaniline-crosslinked gold nanoparticles imprinting recognition sites for the determination of dopamine.
Biosensors and Bioelectronics, 128, 129-136, (2019)
   

Gu Y et al., Quartz crystal microbalance sensor based on covalent organic framework composite and molecularly imprinted polymer of poly(o-aminothiophenol) with gold nanoparticles for the determination of aflatoxin B1.
Sensors and Actuators B: Chemical, 291, 293-297, (2019)
   

Xu LH et al., Carbon dots embedded metal-organic framework@molecularly imprinted nanoparticles for highly sensitive and selective detection of quercetin.
Sensors and Actuators B: Chemical, 286, 321-327, (2019)
   

Pan MH

Pan MH et al., Proceeding, Selective Removal of As(V) from Aqueous Solutions Using Magnetic As(V)-Imprinted Polymers with Combination of Two Functional Monomers, 
Hegde G (Ed.), 495-498, (2014)
   

Pan MH et al., Synthesis of Magnetic As(V)-Imprinted Polymers and Their Adsorption Performances for Arsenate in Water Solutions.
Fresenius Environmental Bulletin, 23, (1), 122-129, (2014)
   

Pan P

Qi M et al., Adsorption and Electrochemical Detection of Bovine Serum Albumin Imprinted Calcium Alginate Hydrogel Membrane.
Polymers, 11, (4), ArticleNo622-(2019)
   

Pan PY

Qiao FX et al., Molecularly imprinted microspheres as SPE sorbent for selective extraction of four Sudan dyes in catsup products.
Journal of Chromatography B, 879, (27), 2891-2896, (2011)
   

Qiao JD et al., Simultaneous Determination of Four Sudan Dyes in Egg Yolks by Molecularly Imprinted SPE Coupled with LC-UV Detection.
Chromatographia, 73, (3), 227-233, (2011)
   

Pan QF

Zhang RR et al., Ultrasensitive electrochemiluminescence sensor based on perovskite quantum dots coated with molecularly imprinted polymer for prometryn determination.
Food Chemistry, 370, Article131353-(2022)
   

Pan QS

Yang GM et al., A Novel Photoelectrochemical Sensor for Thiamphenicol Based on Porous Three-Dimensional Imprinted Film.
International Journal of Electrochemical Science, 12, (7), 7272-7286, (2017)
   

Pan R

Wu Y et al., Preparation and characterization of mesoporous silica SBA-15-supported molecularly caffeine-imprinted polymers by surface molecularly imprinting technique.
Journal of Jiangsu University (Medicine Edition), 22, (2), 151-154, (2012)
   

Pan RH

Guo SF et al., Preparation of Molecularly Imprinted Composites Initiated by Hemin/Graphene Hybrid Nanosheets and Its Application in Detection of Sulfamethoxazole.
Current Medical Science, 39, (1), 159-165, (2019)
   

Pan SD

Zhao YG et al., Self-assembly of a surface bisphenol A-imprinted core-shell nanoring amino-functionalized superparamagnetic polymer.
Journal of Materials Chemistry A, 1, (38), 11648-11658, (2013)
   

Pan SD et al., Controlled synthesis of pentachlorophenol-imprinted polymers on the surface of magnetic graphene oxide for highly selective adsorption.
Journal of Materials Chemistry A, 2, (37), 15345-15356, (2014)
   

Zhao YG et al., Fast determination of 22 sulfonamides from chicken breast muscle using core-shell nanoring amino-functionalized superparamagnetic molecularly imprinted polymer followed by liquid chromatography-tandem mass spectrometry.
Journal of Chromatography A, 1345, 17-28, (2014)
   

Chen XH et al., Ethylenediamine-functionalized superparamagnetic carbon nanotubes for magnetic molecularly imprinted polymer matrix solid-phase dispersion extraction of 12 fluoroquinolones in river water.
Analytical Methods, 7, (14), 5838-5846, (2015)
   

Pan SD et al., In situ controllable synthesis of graphene oxide-based ternary magnetic molecularly imprinted polymer hybrid for efficient enrichment and detection of eight microcystins.
Journal of Materials Chemistry A, 3, (45), 23042-23052, (2015)
   

Pan SD et al., Double-sided magnetic molecularly imprinted polymer modified graphene oxide for highly efficient enrichment and fast detection of trace-level microcystins from large-volume water samples combined with liquid chromatography-tandem mass spectrometry.
Journal of Chromatography A, 1422, 1-12, (2015)
   

Pan SD et al., Synthesis of a monodisperse well-defined core-shell magnetic molecularly-imprinted polymer prior to LC-MS/MS for fast and sensitive determination of mycotoxin residues in rice.
Analytical Methods, 9, (36), 5281-5292, (2017)
   

Pan SD et al., Correction: Synthesis of a monodisperse well-defined core-shell magnetic molecularly-imprinted polymer prior to LC-MS/MS for fast and sensitive determination of mycotoxin residues in rice.
Analytical Methods, 11, (25), 3269-3270, (2019)
   

Pan SD et al., Correction: In situ controllable synthesis of graphene oxide-based ternary magnetic molecularly imprinted polymer hybrid for efficient enrichment and detection of eight microcystins.
Journal of Materials Chemistry A, 7, (25), 15453-15455, (2019)
   

Pan SH

Cheng LD et al., Dispersive solid-phase microextraction with graphene oxide based molecularly imprinted polymers for determining bis(2-ethylhexyl) phthalate in environmental water.
Journal of Chromatography A, 1511, 85-91, (2017)
   

Han S et al., A kanamycin sensor based on an electrosynthesized molecularly imprinted poly-o-phenylenediamine film on a single-walled carbon nanohorn modified glassy carbon electrode.
Analyst, 142, (1), 218-223, (2017)
   

Pan SY

Wang YL et al., Sol-gel molecularly imprinted polymer for selective solid phase microextraction of organophosphorous pesticides.
Talanta, 115, 920-927, (2013)
   

Li JW et al., Molecularly imprinted calixarene fiber for solid-phase microextraction of four organophosphorous pesticides in fruits.
Food Chemistry, 192, 260-267, (2016)
   

Xiang XZ et al., Multifiber solid-phase microextraction using different molecularly imprinted coatings for simultaneous selective extraction and sensitive determination of organophosphorus pesticides.
Journal of Separation Science, 43, (4), 756-765, (2020)
   

Pan T

Xu DD et al., Surface Imprinting on Spherical Macroporous Silica for Protein Recognition.
Chemistry Letters, 47, (5), 686-689, (2018)
   

Pan T et al., Preparation of boronate-functionalized surface molecularly imprinted polymer microspheres with polydopamine coating for specific recognition and separation of glycoside template.
Journal of Separation Science, 44, (12), 2465-2473, (2021)
   

Pan WD

Pan WD, Preparation of Sudan Red I Molecular Imprinting Polymer and Its Recognition Property.
Journal of Lianyungang Technical College, 19, (4), 9-11, (2006)
   

Pan WJ

Wei SL et al., Study of Melatonin Sensor Based on Molecular Imprinting Technique and Electropolymerization Membrane.
Chinese Journal of Analytical Chemistry, 40, (8), 1219-1224, (2012)
   

Sun PX et al., Determination of Glucose by a Molecular Capacitor Array Based Using a 3-(Acrylamido) Phenylboronic Acid Prepared Molecularly Imprinted Polyacrylamide Cryogel.
Analytical Letters, 54, (17), 2789-2800, (2021)
   

Pan X

Zhou Q et al., Study on solid phase extraction capability of phenacetin molecularly imprinted polymers.
Chemical Analysis and Meterage, 19, (1), 46-48, (2010)
   

Pan XH

Liu J et al., Preparation of parathion imprinted polymer and its application for the determination of parathion in water.
Chinese Journal of Analysis Laboratory, 31, (9), 81-84, (2012)
   

Pan XH et al., Molecularly imprinted mesoporous silica nanoparticles for specific extraction and efficient identification of Amadori compounds.
Analytica Chimica Acta, 1019, 65-73, (2018)
   

Tan L et al., Boronate affinity glycosyl molecularly imprinted polymer microspheres for the determination of teicoplanin using ultra-high performance liquid chromatography coupled with tandem mass spectrometry.
Journal of Chromatography A, 1615, Article460776-(2020)
   

Tan L et al., Highly sensitive determination of amanita toxins in biological samples using [beta]-cyclodextrin collaborated molecularly imprinted polymers coupled with ultra-high performance liquid chromatography tandem mass spectrometry.
Journal of Chromatography A, 1630, Article461514-(2020)
   

Cen SB et al., The fabrication of a highly ordered molecularly imprinted mesoporous silica for solid-phase extraction of nonylphenol in textile samples.
Microchemical Journal, 164, Article105954-(2021)
   

Tan L et al., Glycosyl imprinted mesoporous microspheres for the determination of glycopeptide antibiotics using ultra-high performance liquid chromatography coupled with tandem mass spectrometry.
Journal of Chromatography A, 1659, Article462630-(2021)
   

Pan XQ

Pei DN et al., Electrochemical Sensing of Bisphenol A on Facet-Tailored TiO2 Single Crystals Engineered by Inorganic-Framework Molecular Imprinting Sites.
Analytical Chemistry, 90, (5), 3165-3173, (2018)
   

Pan XY

Xie XY et al., Development and characterization of magnetic molecularly imprinted polymers for the selective enrichment of endocrine disrupting chemicals in water and milk samples.
Analytical and Bioanalytical Chemistry, 407, (6), 1735-1744, (2015)
   

Xie XY et al., Synthesis of magnetic molecularly imprinted polymers by reversible addition fragmentation chain transfer strategy and its application in the Sudan dyes residue analysis.
Journal of Chromatography A, 1405, 32-39, (2015)
   

Luo ZM et al., Study of the allergenic benzypenicilloyl-HSA and its specific separation from human plasma by a pre-designed hybrid imprinted membrane.
RSC Advances, 6, (19), 15549-15557, (2016)
   

Xie XY et al., Surface-imprinted magnetic particles for highly selective sulfonamides recognition prepared by reversible addition fragmentation chain transfer polymerization.
Analytical and Bioanalytical Chemistry, 408, (3), 963-970, (2016)
   

Pan Y

Zuo YJ et al., The preparation of poly(o-phenylenediamine) sarin acid imprinting nanometer layer and its structural characterization.
Acta Physico-Chimica Sinica, 19, (6), 528-532, (2003)
   

Pan Y et al., Study on the Detection of Dimethylmethylphosphonate by Surface Acoustic Wave-Molecular Imprinting Technology.
Journal of Instrumental Analysis, 24, (4), 42-44, (2005)
   

Cao BQ et al., Synthetic Progress of Molecularly Imprinted Polymers.
Modern Scientific Instruments, (6), 29-33, (2006)
   

Wang W et al., Viscoelastic analysis of a surface acoustic wave gas sensor coated by a new deposition technique.
Chinese Journal of Chemical Physics, 19, (1), 47-53, (2006)
   

Cao BQ et al., Progress of the Applied Study on Imprinting Sensors and Preparation of Molecularly Imprinted Polymers.
Chinese Polymer Bulletin, (8), 34-42, (2007)
   

Wang W et al., Enhanced sensitivity of SAW gas sensor coated molecularly imprinted polymer incorporating high frequency stability oscillator.
Sensors and Actuators B: Chemical, 125, (2), 422-427, (2007)
   

Pan Y et al., The Study of Molecular Imprinting Technology of SAW [beta]-CD Ramification.
Modern Scientific Instruments, (1), 65-67, (2008)
   

Liu Y et al., Research on mono[6-deoxy(1, 10-decanedithiol)]-[beta]-CD imprinted and self-assembled film-SAW sensors.
Chemical Sensors (China), 30, (4), 20-25, (2010)
   

Cao BQ et al., Study on the Surface Acoustic Wave Sensor with Self-assembly Imprinted Film of Calixarene Derivatives to Detect Organophosphorus Compounds.
American Journal of Analytical Chemistry, 3, (9), 663-667, (2012)
   

Pan Y et al., A SAW-Based Chemical Sensor for Detecting Sulfur-Containing Organophosphorus Compounds Using a Two-Step Self-Assembly and Molecular Imprinting Technology.
Sensors, 14, (5), 8810-8820, (2014)
   

Pan Y et al., Selective Surface Acoustic Wave-Based Organophosphorus Sensor Employing a Host-Guest Self-Assembly Monolayer of [beta]-Cyclodextrin Derivative.
Sensors, 15, (8), 17916-17925, (2015)
   

Pan Y et al., Detection of organophosphorus compounds using a surface acoustic wave array sensor based on supramolecular self-assembling imprinted films.
Analytical Methods, 12, (17), 2206-2214, (2020)
   

Pan Y et al., Developing a generally applicable electrochemical sensor for detecting macrolides in water with thiophene-based molecularly imprinted polymers.
Water Research, 205, Article117670-(2021)
   

Pan YD

Tang T et al., Preparation of Surface Molecularly Imprinted Polymer Based on CNTs/SiO2 and Its Application in Electrochemical Detecting Rutin.
Journal of Instrumental Analysis, 34, (11), 1253-1258, (2015)
   

Pan YF

Huang L et al., Chip-based dual-molecularly imprinted monolithic capillary array columns coated Ag/GO for selective extraction and simultaneous determination of bisphenol A and nonyl phenol in fish samples.
Journal of Chromatography A, 1474, 14-22, (2016)
   

Zhai HY et al., Chip-based molecularly imprinted monolithic capillary array columns coated GO/SiO2 for selective extraction and sensitive determination of rhodamine B in chili powder.
Food Chemistry, 214, 664-669, (2017)
   

Zhou Q et al., A simple and sensitive sensor based on a molecularly imprinted polymer-modified carbon paste electrode for the determination of curcumin in foods.
RSC Advances, 7, (37), 22913-22918, (2017)
   

Wang SQ et al., Constructing a novel composite of molecularly imprinted polymer-coated AuNPs electrochemical sensor for the determination of 3-nitrotyrosine.
Electrochimica Acta, 259, 893-902, (2018)
   

Pan YH

Pan YH et al., A novel electrochemical 4-nonyl-phenol sensor based on molecularly imprinted poly (o-phenylenediamine-co-o-toluidine)-nitrogen-doped graphene nanoribbons-ionic liquid composite film.
Electrochimica Acta, 151, 423-428, (2015)
   

Pan YH et al., Electrochemical sensors of octylphenol based on molecularly imprinted poly(3, 4-ethylenedioxythiophene) and poly(3, 4-ethylenedioxythiophene-gold nanoparticles).
RSC Advances, 5, (71), 57671-57677, (2015)
   

Pan YJ

Pan YJ et al., Preparation and application of tectoridin-imprinted magnetite nanoparticles.
Journal of Applied Polymer Science, 133, (32), ArticleNo43806-(2016)
   

Pan YP

Xu ZG et al., Preparation of Trimethoprim Molecularly Imprinted Stir Bar Sorptive Extraction and Its Application for Trace Analysis of Trimethoprim and Sulfonamides in Complex Samples.
Chinese Journal of Analytical Chemistry, 40, (7), 1002-1010, (2012)
   

Pan Z

Yuan YX et al., Hydrogel Photonic Sensor for the Detection of 3-Pyridinecarboxamide.
Chemistry - A European Journal, 18, (1), 303-309, (2012)
   

Zhang YL et al., Molecularly imprinted photonic crystals for the direct label-free distinguishing of l-proline and d-proline.
Physical Chemistry Chemical Physics, 15, (40), 17250-17256, (2013)
   

Pan ZY

Xiao H et al., Preparation and evaluation of surface molecularly imprinted polymers as stationary phase columns for high performance liquid chromatography.
Analytical Methods, 8, (44), 7951-7958, (2016)
   

Panagiotopoulou M

Kunath S et al., Cell and Tissue Imaging with Molecularly Imprinted Polymers as Plastic Antibody Mimics.
Advanced Healthcare Materials, 4, (9), 1322-1326, (2015)
   

Panagiotopoulou M et al., Initiator-free synthesis of molecularly imprinted polymers by polymerization of self-initiated monomers.
Polymer, 66, 43-51, (2015)
   

Panagiotopoulou M et al., Molecularly Imprinted Polymer Coated Quantum Dots for Multiplexed Cell Targeting and Imaging.
Angewandte Chemie International Edition, 55, (29), 8244-8248, (2016)
   

Panagiotopoulou M et al., Book chapter, Cell and Tissue Imaging with Molecularly Imprinted Polymers, 
In: Synthetic Antibodies: Methods and Protocols, Tiller T (Ed.) Springer: New York, NY, 399-415, (2017)
   

Panagiotopoulou M et al., Fluorescent molecularly imprinted polymers as plastic antibodies for selective labeling and imaging of hyaluronan and sialic acid on fixed and living cells.
Biosensors and Bioelectronics, 88, 85-93, (2017)
   

Demir B et al., Tracking Hyaluronan: Molecularly Imprinted Polymer Coated Carbon Dots for Cancer Cell Targeting and Imaging.
ACS Applied Materials & Interfaces, 10, (4), 3305-3313, (2018)
   

Medina Rangel PX et al., Solid-phase synthesis of molecularly imprinted polymer nanolabels: Affinity tools for cellular bioimaging of glycans.
Scientific Reports, 9, (1), Article3923-(2019)
   

Panah P

Kumar A et al., Remediation techniques applied for aqueous system contaminated by toxic Chromium and Nickel ion.
Geology, Ecology, and Landscapes, 1, (2), 143-153, (2017)
   

Panahi HA

Feyzbakhsh AR et al., Proceeding, Synthesis, characterization and analytical applications of Ni(II)-ion imprinted polymer, 
(2011)
   

Mahabadi M et al., Proceeding, Synthesis of Molecularly Imprinted Polymers for sorption of Mefenamic acid based on the surface of modified silica gel, 
(2011)
   

Mahabadi SA et al., Proceeding, New molecularly imprinted polymer for extraction, preconcentration and determination of Nalidixic acid, 
(2011)
   

Niroomandi Z et al., Proceeding, Isolation and Purification of [alpha]-Amylase Enzyme Using MIP Technique, 
100-105, (2011)
   

Oskouei M et al., Proceeding, Synthesis of a New Molecularly Imprinted Polymer and its Application for Extraction, Preconcentration and Determination of Theophylline, 
(2011)
   

Sahar Afzali Borujeni SA et al., Proceeding, Synthesis of Ion Imprinted Polymers for uptake of Cobalt(II) from invironmental samples, 
(2011)
   

Yazdanian N et al., Proceeding, Synthesis and characterization of Al (III)-ion imprinted polymer as a new sorbent for separation and preconcentration of aluminium, 
(2011)
   

Manoochehri M et al., Synthesize of Ion Imprinted Polymer for Selective Extraction of lead (II) from Environmental Water Samples.
Journal of Applied Chemical Research, 7, (1), 43-49, (2013)
   

Panahi HA et al., Synthesis and characterization of new molecular imprinting poly[1-(N, N-bis-carboxymethyl)amino-3-allylglycerol-co-dimethylacrylamide] for selective sorption and determination of cefuroxime sodium in biological and pharmaceutical samples.
Reactive and Functional Polymers, 73, (1), 132-140, (2013)
   

Panahi HA et al., Fabrication of new drug imprinting polymer beads for selective extraction of naproxen in human urine and pharmaceutical samples.
International Journal of Pharmaceutics, 441, (1-2), 776-780, (2013)
   

Sid Kalal H et al., The Pre-concentration and determination of Iridium and Palladium in environmental water by imprinted polymer-based method.
International Journal of Environmental Science and Technology, 10, (5), 1091-1102, (2013)
   

Sid Kalal H et al., Adsorption of Strontium (II) on new ion-imprinted solid-phase support: determination, isotherms, thermodynamic and kinetic studies.
Caspian Journal of Environmental Sciences, 11, (1), 53-63, (2013)
   

Naraghi K et al., Ion imprinted activated carbon solid-phase extraction coupled to flame atomic absorption spectrometry for selective determination of lead ions in environmental samples.
Korean Journal of Chemical Engineering, 31, (10), 1818-1823, (2014)
   

Panahi HA et al., Selective extraction of clonazepam from human plasma and urine samples by molecularly imprinted polymeric beads.
Journal of Separation Science, 37, (6), 691-695, (2014)
   

Moniri E et al., Selective Solid-Phase Extraction of Zinc(II) from Environmental Water Samples Using Ion Imprinted Activated Carbon.
Journal of AOAC International, 98, (1), 206-212, (2015)
   

Panahi HA et al., Application of Molecularly Imprinted Polymer for Extraction and Determination of Nalidixic Acid by High-Performance Liquid Chromatography.
Separation Science and Technology, 50, (5), 683-689, (2015)
   

Panahi HA et al., Selective Sorption and Determination of Atenolol in Pharmaceutical and Biological Samples by Molecular Imprinting Using New Copolymer Beads as a Functional Matrix.
Journal of Liquid Chromatography & Related Technologies, 38, (2), 222-228, (2015)
   

Alaei HS et al., Photo-regulated ultraselective extraction of Azatioprine using a novel photoresponsive molecularly imprinted polymer conjugated hyperbranched polymers based magnetic nano-particles.
Polymer, 148, 191-201, (2018)
   

Gomar M et al., Synthesis and Characterization of Thermosensitive Molecularly Imprinted Poly[allylacetoacetate/N-vinyl caprolactam] for Selective Extraction of Gemcitabine in Biological Samples.
ChemistrySelect, 3, (9), 2571-2577, (2018)
   

Sajadi P et al., Selective extraction and determination of sumatriptan succinate in human urine by synthesized thermosensitive molecularly imprinted poly(3-allyloxy-1, 2-propanediol/N-vinylcaprolactam).
Separation Science and Technology, 53, (18), 2906-2915, (2018)
   

Alaei HS et al., Photoresponsive molecularly imprinted dendrimer-based magnetic nanoparticles for photo-regulated selective separation of azathioprine.
Reactive and Functional Polymers, 136, 58-65, (2019)
   

Panahi R

Panahi R et al., Separation of l-lysine from dilute aqueous solution using molecular imprinting technique.
Biochemical Engineering Journal, 35, (3), 352-356, (2007)
   

Panahi R et al., Determination of Adsorption Isotherm for L-Lysine Imprinted Polymer.
Iranian Journal of Chemical Engineering, 5, (4), 49-55, (2008)
   

Panahi Y

Panahi Y et al., High sensitive and selective nano-molecularly imprinted polymer based electrochemical sensor for midazolam drug detection in pharmaceutical formulation and human urine samples.
Sensors and Actuators B: Chemical, 273, 1579-1586, (2018)
   

Panarin EF

Leshchinskaya AP et al., Selective sorption of uric acid by novel molecularly imprinted polymers.
Molecular Imprinting, 1, (1), 17-26, (2013)
   

Panasyuk T

Panasyuk T et al., Molecular imprinted polymers prepared by electropolymerization of Ni-(Protoporphyrin IX).
Analytical Letters, 31, (11), 1809-1824, (1998)
   

Mirsky V et al., Two and three dimensional artificial chemoreceptors: molecular spreader-bar vs. molecular imprinting.
Medical & Biological Engineering & Computing, 37, (Suppl. 2), 344-345, (1999)
   

Panasyuk T et al., Proceeding, Selective films prepared by imprinting electropolymerization of metalloporphyrins, 
Di Natale C, D'Amico A, Sberveglieri G (Eds.), 25-29, (1999)
   

Panasyuk TL

Piletsky SA et al., Sensors for low-weight organic-molecules based on molecular imprinting technique.
Sensors and Actuators B: Chemical, 19, (1-3), 629-631, (1994)
   

Piletsky SA et al., A biomimetic receptor system for sialic acid based on molecular imprinting.
Analytical Letters, 29, (2), 157-170, (1996)
   

Piletsky SA et al., Imprinted membranes for sensor technology: Opposite behavior of covalently and noncovalently imprinted membranes.
Macromolecules, 31, (7), 2137-2140, (1998)
   

Panasyuk TL et al., Electropolymerized molecularly imprinted polymers as receptor layers in a capacitive chemical sensors.
Analytical Chemistry, 71, (20), 4609-4613, (1999)
   

Piletsky SA et al., Receptor and transport properties of imprinted polymer membranes - a review.
Journal of Membrane Science, 157, (2), 263-278, (1999)
   

Piletsky SA et al., Molecularly imprinted self-assembled films with specificity to cholesterol.
Sensors and Actuators B: Chemical, 60, (2-3), 216-220, (1999)
   

Sergeyeva TA et al., Conductimetric sensor for atrazine detection based on molecularly imprinted polymer membranes.
Analyst, 124, (3), 331-334, (1999)
   

Panasyuk-Delaney T

Mirsky VM et al., Chemical sensors based on ultrathin membranes from molecularly imprinted polymers.
Biologicheskie Membrany, 18, (6), 496-501, (2001)
   

Panasyuk-Delaney T et al., Impedometric herbicide chemosensors based on molecularly imprinted polymers.
Analytica Chimica Acta, 435, (1), 157-162, (2001)
   

Panasyuk-Delaney T et al., Capacitive creatinine sensor based on a photografted molecularly imprinted polymer.
Electroanalysis, 14, (3), 221-224, (2002)
   

Panasyuk-Delaney TL

Sergeyeva TA et al., Capacitive sensor for environmental monitoring based on thin films of molecularly imprinted polymers. Computational modeling for optimization of the polymers-biomimics composition.
Ukrainskii Biokhimicheskii Zhurnal, 78, (2), 121-130, (2006)
   

Panayiotou C

Michailof C et al., Synthesis of caffeic acid and p-hydroxybenzoic acid molecularly imprinted polymers and their application for the selective extraction of polyphenols from olive mill waste waters.
Journal of Chromatography A, 1182, (1), 25-33, (2008)
   

Pande VS

Pande VS et al., Folding thermodynamics and kinetics of imprinted renaturable heteropolymers.
Journal of Chemical Physics, 101, (9), 8246-8257, (1994)
   

Pande VS et al., Thermodynamic procedure to synthesize heteropolymers that can renature to recognize a given target molecule.
Proceedings of the National Academy of Sciences of the United States of America, 91, (26), 12976-12979, (1994)
   

Pande VS et al., Phase-diagram of imprinted copolymers.
Journal de Physique II, 4, 1771-1784, (1994)
   

Pande VS et al., Phase-diagram of an imprinted copolymer in a random external-field.
Journal of Physics A-Mathematical and General, 28, (13), 3657-3666, (1995)
   

Pande VS et al., Phase-diagram of heteropolymers with an imprinted conformation.
Macromolecules, 28, (7), 2218-2227, (1995)
   

Pande VS et al., How to create polymers with protein-like capabilities: A theoretical suggestion.
Physica D, 107, (2-4), 316-321, (1997)
   

Pandey AK

James D et al., Design of two-dimensional biomimetic uranyl optrode and its application to the analysis of natural waters.
Talanta, 74, (5), 1420-1427, (2008)
   

Chappa S et al., UO22+ ions selective phosphate bearing polymer: imprinting and computational modeling.
74-(2018)
   

Pandey G

Pandey V et al., Optical sensing of 3-phenoxybenzoic acid as a pyrethroid pesticides exposure marker by surface imprinting polymer capped on manganese-doped zinc sulfide quantum dots.
Analytical Chemistry Research, 5, 21-27, (2015)
   

Pandey H

Pandey H et al., Carbon nanomaterials integrated molecularly imprinted polymers for biological sample analysis: A critical review.
Materials Chemistry and Physics, 239, Article121966-(2020)
   

Pandey I

Prasad BB et al., Metal incorporated molecularly imprinted polymer-based electrochemical sensor for enantio-selective analysis of pyroglutamic acid isomers.
Sensors and Actuators B: Chemical, 186, 407-416, (2013)
   

Prasad BB et al., Multiwalled carbon nanotubes-based pencil graphite electrode modified with an electrosynthesized molecularly imprinted nanofilm for electrochemical sensing of methionine enantiomers.
Sensors and Actuators B: Chemical, 176, 863-874, (2013)
   

Prasad BB et al., Electrochemically imprinted molecular recognition sites on multiwalled carbon-nanotubes/pencil graphite electrode surface for enantioselective detection of d- and l-aspartic acid.
Electrochimica Acta, 88, 24-34, (2013)
   

Prasad BB et al., Electrochemically grown imprinted polybenzidine nanofilm on multiwalled carbon nanotubes anchored pencil graphite fibers for enantioselective micro-solid phase extraction coupled with ultratrace sensing of d- and l-methionine.
Journal of Chromatography B, 912, 65-74, (2013)
   

Prasad BB et al., Molecularly imprinted polymer-based piezoelectric sensor for enantio-selective analysis of malic acid isomers.
Sensors and Actuators B: Chemical, 181, 596-604, (2013)
   

Pandey I et al., Molecularly imprinted polyaniline-ferrocene-sulfonic acid-Carbon dots modified pencil graphite electrodes for chiral selective sensing of D-Ascorbic acid and L-Ascorbic acid: A clinical biomarker for preeclampsia.
Electrochimica Acta, 182, 917-928, (2015)
   

Pandey I et al., Electrochemical impedance based chiral analysis of anti-ascorbutic drug: l-Ascorbic acid and d-ascorbic acid using C-dots decorated conductive polymer nano-composite electrode.
Biosensors and Bioelectronics, 77, 715-724, (2016)
   

Pandey I et al., Corrigendum to "Molecularly imprinted polyaniline-ferrocene-sulfonic acid-Carbon dots modified pencil graphite electrodes for chiral selective sensing of D-Ascorbic acid and L-Ascorbic acid: A clinical biomarker for preeclampsia" [Electrochimica Acta 182 (2015) 917-928].
Electrochimica Acta, 188, 927-927, (2016)
   

Pandey I, Proceeding, Conducting artificial enzymatic nanocubes based electronic sensor for simultaneous detection of hemoglobin and glycated hemoglobin in diabetic patients, 
1-4, (2018)
   

Pandey I et al., Electrochemically synthesized new class of molecularly imprinted poly-rhodamine b nanodots for the detection of nutritional anaemia biomarker-bovine haemoglobin in salt-sick cattle.
Microsystem Technologies, 24, (10), 4225-4235, (2018)
   

Pandey I, Corrigendum to "A novel dual imprinted conducting nanocubes based flexible sensor for simultaneous detection of hemoglobin and glycated hemoglobin in gestational diabetes mellitus patients" [Sens. Actuators B: Chem. 285 (2019) 470-478].
Sensors and Actuators B: Chemical, 293, 366-367, (2019)
   

Pandey I et al., A novel dual imprinted conducting nanocubes based flexible sensor for simultaneous detection of hemoglobin and glycated haemoglobin in gestational diabetes mellitus patients.
Sensors and Actuators B: Chemical, 285, 470-478, (2019)
   

Pandey K

Pandey K et al., A Critical Review on Clinical Application of Separation Techniques for Selective Recognition of Uracil and 5-Fluorouracil.
Indian Journal of Clinical Biochemistry, 31, (1), 3-12, (2016)
   

Pandey P

Boopathi M et al., Plastic antibody for the recognition of chemical warfare agent sulphur mustard.
Biosensors and Bioelectronics, 21, (12), 2339-2344, (2006)
   

Baghel A et al., Synthesis and characterization of metal ion imprinted nano-porous polymer for the selective recognition of copper.
Biosensors and Bioelectronics, 22, (12), 3326-3334, (2007)
   

Pradhan S et al., Molecularly imprinted nanopatterns for the recognition of biological warfare agent ricin.
Biosensors and Bioelectronics, 25, (3), 592-598, (2009)
   

Gupta G et al., Supersensitive detection of T-2 toxin by the in situ synthesized [pi]-conjugated molecularly imprinted nanopatterns. An in situ investigation by surface plasmon resonance combined with electrochemistry.
Biosensors and Bioelectronics, 26, (5), 2534-2540, (2011)
   

Chauhan A et al., Imprinted nanospheres based on precipitation polymerization for the simultaneous extraction of six urinary benzene metabolites from urine followed by injector port silylation and gas chromatography-tandem mass spectrometric analysis.
Journal of Chromatography B, 1001, 66-74, (2015)
   

Pandey SD

Shea KJ et al., Template synthesis of macromolecules. Synthesis and chemistry of functionalised macroporous polydivinylbenzene.
Journal of the American Chemical Society, 102, (9), 3149-3155, (1980)
   

Pandey V

Chauhan A et al., Imprinted nanospheres based on precipitation polymerization for the simultaneous extraction of six urinary benzene metabolites from urine followed by injector port silylation and gas chromatography-tandem mass spectrometric analysis.
Journal of Chromatography B, 1001, 66-74, (2015)
   

Pandey V et al., Optical sensing of 3-phenoxybenzoic acid as a pyrethroid pesticides exposure marker by surface imprinting polymer capped on manganese-doped zinc sulfide quantum dots.
Analytical Chemistry Research, 5, 21-27, (2015)
   

Pandi K

Pandi K et al., A facile synthesis of metal ion-imprinted graphene oxide/alginate hybrid biopolymeric beads for enhanced fluoride sorption.
RSC Advances, 6, (79), 75905-75915, (2016)
   

Pandit S

Avaz S et al., Graphene based nanosensor for aqueous phase detection of nitroaromatics.
RSC Advances, 7, (41), 25519-25527, (2017)
   

Pang B

Guo XX et al., Multi-functional magnetic molecular imprinting probe for visual detection of IgY antibodies.
Microchimica Acta, 188, (11), Article378-(2021)
   

Pang C

Liu YH et al., Selective adsorption of uranyl ion on ion-imprinted chitosan/PVA cross-linked hydrogel.
Hydrometallurgy, 104, (2), 150-155, (2010)
   

So J et al., Adsorption of 1-naphthyl methyl carbamate in water by utilizing a surface molecularly imprinted polymer.
Chemical Physics Letters, 699, 199-207, (2018)
   

Pang CH

Ma XH et al., A Cu(II)-anchored unzipped covalent triazine framework with peroxidase-mimicking properties for molecular imprinting-based electrochemiluminescent detection of sulfaquinoxaline.
Microchimica Acta, 185, (12), ArticleNo546-(2018)
   

Li SH et al., Molecularly imprinted electroluminescence switch sensor with a dual recognition effect for determination of ultra-trace levels of cobalt (II).
Biosensors and Bioelectronics, 139, Article111321-(2019)
   

Li SH et al., Fluorometric aptasensor for cadmium(II) by using an aptamer-imprinted polymer as the recognition element.
Microchimica Acta, 186, (12), Article823-(2019)
   

Li SH et al., Highly selective molecular imprinting electrochemiluminescence switch sensor for biotoxin L-canavanine measurement.
Microchemical Journal, 148, 397-403, (2019)
   

Ma XH et al., Synthesis of Zr-coordinated amide porphyrin-based two-dimensional covalent organic framework at liquid-liquid interface for electrochemical sensing of tetracycline.
Biosensors and Bioelectronics, 146, Article111734-(2019)
   

Li SH et al., Novel molecularly imprinted amoxicillin sensor based on a dual recognition and dual detection strategy.
Analytica Chimica Acta, 1127, 69-78, (2020)
   

Li SH et al., Chiral drug fluorometry based on a calix[6]arene/molecularly imprinted polymer double recognition element grafted on nano-C-dots/Ir/Au.
Microchimica Acta, 187, (7), Article394-(2020)
   

Li SH et al., A gold nanoparticle-loaded molecularly imprinted switch sensor with high sensitivity to ethephon.
Microchemical Journal, 157, Article105025-(2020)
   

Li SH et al., Novel chloramphenicol sensor based on aggregation-induced electrochemiluminescence and nanozyme amplification.
Biosensors and Bioelectronics, 176, Article112944-(2021)
   

Li SH et al., Microfluidic paper-based chip for parathion-methyl detection based on a double catalytic amplification strategy.
Microchimica Acta, 188, (12), 438-(2021)
   

Pang CJ

Liu L et al., Amino Acid Imprinted UiO-66s for Highly Recognized Adsorption of Small Angiotensin-Converting-Enzyme-Inhibitory Peptides.
ACS Applied Materials & Interfaces, 11, (26), 23039-23049, (2019)
   

Pang DL

Jiang YX et al., Spectroscopy Study on the Selectively Distinguishing Cefalexin with the Molecular Imprinted Polymer.
Spectroscopy and Spectral Analysis, 31, (7), 1852-1856, (2011)
   

Pang GR

Yang Z et al., Molecularly Imprinted Sensor Based on Lead-Gallic Acid Complexes and Its Application.
Journal of Analytical Science, 31, (4), 470-474, (2015)
   

Pang J

Li XY et al., Study on recognition properties of artemisinin molecular imprinted polymer.
Chinese Traditional and Herbal Drugs, 43, (4), 795-798, (2012)
   

Cai LG et al., Preparation and Characterization of Porous Molecularly Imprinted Composite Membrane with Sudan I as the Template.
Food Science, 34, (18), 70-74, (2013)
   

Gao WH et al., Determination of Bitertanol and Diniconazole in Food by Virtual-template Molecularly Imprinted Solid Phase Extraction-HPLC.
Modern Food Science and Technology, 29, (10), 2505-2508, (2013)
   

Gao WH et al., Preparation and Recognition Properties of a Bitertanol Electrochemical Sensor Based on Molecular Imprinting Technology.
Modern Food Science and Technology, 31, (1), 96-100, (2015)
   

Zhao LY et al., Preparation and Application of Molecularly Imprinted Electrochemical Sensor for the Detection of Tetramethrin and Its Performance.
Food Science, 38, (8), 283-289, (2017)
   

Pang K

Zhang B et al., Proceeding, High-peformance bimetallic SPR sensor for ciprofloxacin based on molecularly imprinted polymer, 
ArticleNo107280N, (2018)
   

Pang M

Pang M et al., Proceeding, Solid Phase Extraction of Trace Cobalt(II) from Aqueous Solutions through Physicochemical Adsorption by Surface Ion-Imprinted Polymer, 
Zhao J, Iranpour R, Li XY, Jin B (Eds.), 700-706, (2013)
   

Pang QQ

Wei ZH et al., Preparation and characterization of grafted imprinted monolith for capillary electrochromatography.
Electrophoresis, 33, (19-20), 3021-3027, (2012)
   

Zhong DD et al., Rapid preparation of molecularly imprinted polymer by frontal polymerization.
Analytical and Bioanalytical Chemistry, 405, (10), 3205-3214, (2013)
   

Zhang LP et al., Solvent-responsive floating liquid crystalline-molecularly imprinted polymers for gastroretentive controlled drug release system.
International Journal of Pharmaceutics, 532, (1), 365-373, (2017)
   

Pang R

Liu KH et al., Determination of berberine hydrochloride in Cortex Phellodendri Chinensis with direct potential method based on molecularly imprinted polymers.
Chinese Journal of Hospital Phamacy, 35, (13), 1179-1182, (2015)
   

Pang SF

Zhong M et al., Pyrrole-phenylboronic acid: A novel monomer for dopamine recognition and detection based on imprinted electrochemical sensor.
Biosensors and Bioelectronics, 64, 212-218, (2015)
   

Pang SP

Zhang X et al., Specific recognition and detection of target proteins by new fluorescence molecularly imprinted membrane.
Chinese Journal of Chromatography, 35, (3), 252-254, (2017)
   

Zhang X et al., Fluorescent molecularly imprinted membranes as biosensor for the detection of target protein.
Sensors and Actuators B: Chemical, 254, 1078-1086, (2018)
   

Pang SS

Pang SS et al., Synthesis of Bisphenol A [pi]-[pi] Stacking Self-assembly Imprinted Polymer by Precipitation Polymerization and Study on Specificity Recognition Mechanism.
Acta Polymerica Sinica, (1), 49-55, (2014)
   

Pang SW

Soles CL et al., Melting behavior of imprinted polymer nanostructures.
Abstracts of Papers of the American Chemical Society, 230, 89-PMSE, (2005)
   

Pang WS

Huang MX et al., A target analogue imprinted polymer for the recognition of antiplatelet active ingredients in Radix Salviae Miltiorrhizae by LC/MS/MS.
Journal of Pharmaceutical and Biomedical Analysis, 58, (1), 12-18, (2012)
   

Pang XS

Lu SL et al., Preparation methods of nanocavity biomaterials with recognition specificity via template imprinting of proteins.
Acta Academiae Medicinae Sinicae, 25, (5), 640-644, (2003)
   

Lu SL et al., Preparation of molecularly imprinted Fe3O4/P(St-DVB) composite beads with magnetic susceptibility and their characteristics of molecular recognition for amino acid.
Journal of Applied Polymer Science, 89, (14), 3790-3796, (2003)
   

Zhang LY et al., Adsorption and regeneration properties of tyrosine-imprinted polymeric beads.
Adsorption Science & Technology, 21, (8), 775-785, (2003)
   

Pang XS et al., Bovine serum albumin-imprinted polyacrylamide gel beads prepared via inverse-phase seed suspension polymerization.
Analytica Chimica Acta, 550, (1-2), 13-17, (2005)
   

Lu SL et al., Study on preparation of protein-imprinted soft-wet gel composite microspheres with magnetic susceptibility and their characteristics. I. Preparation and particle morphology.
Journal of Applied Polymer Science, 100, (1), 684-694, (2006)
   

Lu SL et al., Preparation and characteristics of Tryptophan-imprinted Fe3O4/P(TRIM) composite microspheres with magnetic susceptibility by inverse emulsion-suspension polymerization.
Journal of Applied Polymer Science, 99, (6), 3241-3250, (2006)
   

Lu SL et al., Protein-imprinted soft-wet gel composite microspheres with magnetic susceptibility. II. Characteristics.
Journal of Applied Polymer Science, 99, (5), 2401-2407, (2006)
   

Pang XS et al., Synthesis of polyacrylamide gel beads with electrostatic functional groups for the molecular imprinting of bovine serum albumin.
Analytical and Bioanalytical Chemistry, 384, (1), 225-230, (2006)
   

Pang XS et al., Soft-wet polyacrylamide gel beads with the imprinting of bovine serum albumin.
Reactive and Functional Polymers, 66, (10), 1182-1188, (2006)
   

Pang YL

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Pap T et al., Characterization of the selectivity of a phenytoin imprinted polymer.
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Papadoyannis IN et al., Book chapter, Sample preparation prior to HPLC, 
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Papaioannou EH et al., Metal-ligand interaction in molecular imprinted polymers for C-terminal cholecystokinin pentapeptide.
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Grenier CJ et al., Rapid, High Affinity Binding by a Fluorescein Templated Copolymer Combining Covalent, Hydrophobic, and Acid-Base Noncovalent Crosslinks.
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Papaioannou E et al., The role of different ions in molecular recognition process of C-terminal cholecystokinin pentapeptide in polymeric receptors.
Amino Acids, 33, (3), XXVIII-XXIX, (2007)
   

Papi RM

Papaioannou EH et al., Molecularly Imprinted Polymers for Cholecystokinin C-Terminal Pentapeptide Recognition.
Macromolecular Chemistry And Physics, 208, (24), 2621-2627, (2007)
   

Trikka FA et al., Selective recognition and separation of amino acids by molecularly imprinted polymers.
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FEBS Journal, 275, (Suppl. 1), 421-421, (2008)
   

Papaioannou EH et al., Artificial receptor for peptide recognition in protic media: The role of metal ion coordination.
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Siñeriz F et al., Toward an alternative for specific recognition of sulfated sugars. Preparation of highly specific molecular imprinted polymers.
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Tirado-Guizar A et al., A molecularly imprinted polymer-coated CdTe quantum dot nanocomposite for tryptophan recognition based on the Förster resonance energy transfer process.
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Parisi OI et al., Design and development of plastic antibodies against SARS-CoV-2 RBD based on molecularly imprinted polymers that inhibit in vitro virus infection.
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Parate K et al., Electrochemical cotinine sensing with a molecularly imprinted polymer on a graphene-platinum nanoparticle modified carbon electrode towards cigarette smoke exposure monitoring.
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Pardeshi S et al., Molecularly imprinted microspheres and nanoparticles prepared using precipitation polymerisation method for selective extraction of gallic acid from Emblica officinalis.
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Pardeshi S et al., Influence of porogens on the specific recognition of molecularly imprinted poly(acrylamide-co-ethylene glycol dimethacrylate).
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Pardo A et al., Targeted extraction of active compounds from natural products by molecularly imprinted polymers.
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Pardo A et al., Molecularly Imprinted Polymers: Compromise between Flexibility and Rigidity for Improving Capture of Template Analogues.
Chemistry - A European Journal, 20, (12), 3500-3509, (2014)
   

Pardo A et al., Quercetin-imprinted chromatographic sorbents revisited: Optimization of synthesis and rebinding protocols for application to natural resources.
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Pardo A et al., Synthesis of Quercetin-imprinted Polymer Spherical Particles with Improved Ability to Capture Quercetin Analogues.
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Djunaidi MC et al., The Influence of type of Functional Groups on the Adsorption Selectivity of Ionic Imprinted Polymer (IIP) Fe.
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von Hauff E et al., Biocompatible molecularly imprinted polymers for the voltage regulated uptake and release of l-glutamate in neutral pH solutions.
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Puoci F et al., Molecularly Imprinted Polymers for [alpha]-Tocopherol Delivery.
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Jo SH et al., Development of a four-zone carousel process packed with metal ion-imprinted polymer for continuous separation of copper ions from manganese ions, cobalt ions, and the constituent metal ions of the buffer solution used as eluent.
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Kim JH et al., Morphochemical imprinting of melamine cyanurate mesocrystals in glucose-derived carbon for high performance lithium ion batteries.
Journal of Materials Chemistry A, 5, (39), 20635-20642, (2017)
   

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Hussain KK et al., Electrochemical Detection of Hemoglobin: A Review.
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Tian ML et al., Selective solid-phase extraction of aloe emodin from aloe by molecularly imprinted polymers.
Chemical Research in Chinese Universities, 29, (4), 663-666, (2013)
   

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Park HE et al., Molecularly Imprinted Polymer for Solid-Phase Extraction of Phenolic Acids from Salicornia herbacea L.
Separation Science and Technology, 49, (9), 1401-1406, (2014)
   

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Yoon SK et al., Synthesis of molecularly imprinted polymer (MIP) by radiation-induced polymerization and separation of ferulic acid from rice oil using MIP-packed column.
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Journal of Polymers and the Environment, 13, (1), 81-86, (2005)
   

Park HR et al., Molecular imprinting polymers for the separation of toluic acid isomers.
Journal of Applied Polymer Science, 96, (3), 650-654, (2005)
   

Park HR et al., Separation of hydroxybenzoic acid isomers using the molecular imprinting technique.
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Chough SH et al., In situ preparation of powder and the sorption behaviors of molecularly imprinted polymers through the complexation between polymer ion of methyl methacrylate/acrylic acid and Ca++ ion.
Analytica Chimica Acta, 841, 84-90, (2014)
   

Lee HM et al., Sorption behaviors and relation between selectivity and possible cavity shapes of the molecularly imprinted materials.
Microporous And Mesoporous Materials, 251, 42-50, (2017)
   

Park HS

Fujiwara M et al., A sol-gel method using tetraethoxysilane and acetic anhydride: Immobilization of cubic [mu]-oxo Si-Ti complex in a silica matrix.
Chemistry of Materials, 14, (12), 4975-4981, (2002)
   

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Park J et al., Selective sorption behavior of metal(II) ion-imprinted polymethacrylate microspheres synthesized via precipitation polymerization method.
Korean Journal of Chemical Engineering, 32, (5), 967-973, (2015)
   

Oh DK et al., Molecular imprinting of polymer films on 2D silica inverse opal via thermal graft copolymerization for bisphenol A detection.
Sensors and Actuators B: Chemical, 323, Article128670-(2020)
   

Yang JC et al., Molecularly imprinted quartz crystal microbalance sensors with lithographically patterned frisbee-like pillar arrays for sensitive and selective detection of iprodione.
Sensors and Actuators B: Chemical, 320, Article128366-(2020)
   

Chul Yang J et al., Molecular imprinting of hemispherical pore-structured thin films via colloidal lithography for gaseous formaldehyde Gravimetric sensing.
Applied Surface Science, 570, Article151161-(2021)
   

Goo SH et al., Fabrication and evaluation of molecularly imprinted structured polymeric films via photopolymerization for bisphenol A detection.
MRS Communications, 11, (5), 576-583, (2021)
   

Yang JC et al., Molecular imprinting of hemispherical pore-structured thin films via colloidal lithography for gaseous formaldehyde Gravimetric sensing.
Applied Surface Science, 570, Article151161-(2021)
   

Choi DY et al., Optimization and characterization of electrochemical protein Imprinting on hemispherical porous gold patterns for the detection of trypsin.
Sensors and Actuators B: Chemical, 350, Article130855-(2022)
   

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Cheong SH et al., Synthesis and binding properties of a noncovalent molecularly imprinted testosterone-specific polymer.
Journal of Polymer Science Part A: Polymer Chemistry, 36, (11), 1725-1732, (1998)
   

Park JK et al., Characteristics of phenylalanine imprinted membrane prepared by the wet phase inversion method.
Korean Journal of Chemical Engineering, 19, (6), 940-948, (2002)
   

Park JK et al., Adsorption selectivity of phenylalanine imprinted polymer prepared by the wet phase inversion method.
Korean Journal of Chemical Engineering, 20, (6), 1066-1072, (2003)
   

Park JK et al., Proceeding, Preparation of molecularly imprinted polymer membrane using wet phase method (II) [separation of phenylalanine using D-PHE imprinted membrane], 
Tong ZF, Kim SH (Eds.), 687-691, (2004)
   

Park JK et al., Separation of phenylalanine by ultrafiltration using D-Phe imprinted polyacrylonitrile-poly(acrylic acid)-poly(acryl amide) terpolymer membrane.
Korean Journal of Chemical Engineering, 21, (5), 994-998, (2004)
   

Park JK et al., Preparation of phenylalanine imprinted polymer by the sol-gel transition method.
Enzyme and Microbial Technology, 35, (6-7), 688-693, (2004)
   

Osten DE et al., Surface plasmon resonance coupled with molecularly imprinted polymers for detecting microcystin-LR.
Abstracts of Papers of the American Chemical Society, 230, 198-ENVR, (2005)
   

Park JK et al., Characteristics of selective adsorption using D-Phenylalanine imprinted terpolymer beads.
Korean Journal of Chemical Engineering, 22, (6), 927-931, (2005)
   

Khan H et al., The preparation of D-phenylalanine imprinted microbeads by a novel method of modified suspension polymerization.
Biotechnology and Bioprocess Engineering, 11, (6), 503-509, (2006)
   

Khan H et al., Separation of phenylalanine racemates using d-phenylalanine imprinted microbeads as HPLC stationary phase.
Separation and Purification Technology, 62, (2), 363-369, (2008)
   

Ul-Haq N et al., Enantioseparation with D-Phe- and L-Phe-imprinted PAN-based membranes by ultrafiltration.
Journal of Chemical Technology & Biotechnology, 83, (4), 524-533, (2008)
   

Ul-Haq N et al., Optical resolution of phenylalanine using D-Phe-imprinted poly(acrylic acid-co-acrylonitrile) membrane-Racemate solution concentration effect.
Polymer Composites, 29, (9), 1006-1013, (2008)
   

Lee JS et al., Preparation of D-phenylalanine imprinted microbeads by the modified suspension polymerization using a magnetic impeller.
Korean Journal of Chemical Engineering, 26, (2), 453-456, (2009)
   

Ul-Haq N et al., Chiral resolution of phenylalanine by d-Phe imprinted membrane considering rejection property.
Bioprocess and Biosystems Engineering, 33, (1), 79-86, (2010)
   

Shah N et al., Highly improved adsorption selectivity of L-phenylalanine imprinted polymeric submicron/nanoscale beads prepared by modified suspension polymerization.
Korean Journal of Chemical Engineering, 28, (9), 1936-1944, (2011)
   

Shah N et al., Chiral separation of phenylalanine using D-phenylalanine imprinted membrane containing L-phenylalanine imprinted submicron/nanoscale beads.
Journal of Pharmacy Research, 5, (8), 4425-4433, (2012)
   

Shah N et al., A Brief Overview of Molecularly Imprinted Polymers: From Basics to Applications.
Journal of Pharmacy Research, 5, (6), 3309-3317, (2012)
   

Shah N et al., Phenylalanine Imprinted Microbeads Prepared by Shaking Method.
International Journal of Engineering Research and Applications, 3, (3), 889-894, (2013)
   

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Journal of the Chemical Society of Pakistan, 36, (4), 561-567, (2014)
   

Ul-Haq N et al., Effect of template on chiral separation of Phenylalanine using molecularly imprinted membrane in aqueous medium.
Journal of the Chemical Society of Pakistan, 36, (4), 606-613, (2014)
   

Shah N et al., Adsorptive molecularly imprinted composite membranes for chiral separation of phenylalanine.
Polish Journal of Chemical Technology The Journal of West Pomeranian University of Technology, Szczecin, 18, (3), 22-29, (2016)
   

Park JY

Cha JH et al., Fabrication of micropatterned molecularly imprinted polymer thin films for detection of atrazine.
Abstracts of Papers of the American Chemical Society, 248, (Coll), 205-(2014)
   

Kim JM et al., Gravimetric detection of theophylline on pore-structured molecularly imprinted conducting polymer.
Sensors and Actuators B: Chemical, 200, 25-30, (2014)
   

Kim JM et al., Quartz crystal microbalance (QCM) gravimetric sensing of theophylline via molecularly imprinted microporous polypyrrole copolymers.
Sensors and Actuators B: Chemical, 206, 50-55, (2015)
   

Yang JC et al., Lithographically patterned molecularly imprinted polymer for gravimetric detection of trace atrazine.
Sensors and Actuators B: Chemical, 216, 476-481, (2015)
   

Park JY, Effect of lithographically designed structures on the caffeine sensing properties of surface imprinted films.
Analyst, 141, (20), 5709-5713, (2016)
   

Yang JC et al., Polymeric Colloidal Nanostructures Fabricated via Highly Controlled Convective Assembly and Their Use for Molecular Imprinting.
ACS Applied Materials & Interfaces, 8, (11), 7381-7389, (2016)
   

Kong S et al., Caffeine-imprinted conducting polymeric films with 2D hierarchical pore arrays prepared via colloidal mask-assisted electrochemical polymerization.
Sensors and Actuators B: Chemical, 260, 587-592, (2018)
   

Yang JC et al., Surface imprinted conducting polymer patterns electrochemically grown from gold pinhole arrays on 2D inverse silica opals and their effective use in aspartame detection.
Sensors and Actuators B: Chemical, 255, (Part 1), 463-470, (2018)
   

Aya GA et al., Replicated Pattern Formation and Recognition Properties of 2, 4-Dichlorophenoxyacetic Acid-Imprinted Polymers Using Colloidal Silica Array Molds.
Polymers, 11, (8), ArticleNo1332-(2019)
   

Jeon S et al., Fluorescent Detection of Bovine Serum Albumin Using Surface Imprinted Films Formed on PDMS Microfluidic Channels.
Journal of Nanoscience and Nanotechnology, 19, (8), 4736-4739, (2019)
   

Yang JC et al., Improving Surface Imprinting Effect by Reducing Nonspecific Adsorption on Non-Imprinted Polymer Films for 2, 4-D Herbicide Sensors.
Chemosensors, 9, (3), Article43-(2021)
   

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Byrne ME et al., Molecular imprinting within hydrogels.
Advanced Drug Delivery Reviews, 54, (1), 149-161, (2002)
   

Seong H et al., Glucose binding to molecularly imprinted polymers.
Journal of Biomaterials Science-Polymer Edition, 13, (6), 637-649, (2002)
   

Seong H et al., Preparation of liposomes with glucose binding sites: liposomes containing di-branched amino acid derivatives.
Biomaterials, 24, (24), 4487-4493, (2003)
   

Chaterji S et al., Smart polymeric gels: Redefining the limits of biomedical devices.
Progress in Polymer Science, 32, (8-9), 1083-1122, (2007)
   

Park KH

Chough SH et al., In situ preparation of powder and the sorption behaviors of molecularly imprinted polymers through the complexation between polymer ion of methyl methacrylate/acrylic acid and Ca++ ion.
Analytica Chimica Acta, 841, 84-90, (2014)
   

Park KK

Cho MG et al., Characterization of hydrogel type molecularly imprinted polymer for creatinine prepared by precipitation polymerization.
Polymer, 237, Article124348-(2021)
   

Park KM

Jo SH et al., Continuous separation of copper ions from a mixture of heavy metal ions using a three-zone carousel process packed with metal ion-imprinted polymer.
Journal of Chromatography A, 1217, (45), 7100-7108, (2010)
   

Park SS

Moorthy MS et al., Ion-imprinted mesoporous silica hybrids for selective recognition of target metal ions.
Microporous And Mesoporous Materials, 180, 162-171, (2013)
   

Park SS et al., Periodic mesoporous organosilicas for advanced applications.
NPG Asia Materials, 6, e96-(2014)
   

Park WI

Yang JC et al., Molecular imprinting of hemispherical pore-structured thin films via colloidal lithography for gaseous formaldehyde Gravimetric sensing.
Applied Surface Science, 570, Article151161-(2021)
   

Park Y

Lee SW et al., Label-Free Creatinine Optical Sensing Using Molecularly Imprinted Titanium Dioxide-Polycarboxylic Acid Hybrid Thin Films: A Preliminary Study for Urine Sample Analysis.
Chemosensors, 9, (7), ArticleNo185-(2021)
   

Park YS

Song CE et al., Improved Catalytic Performances of Supported Catalysts.
Advances in Organic Synthesis, 1, (1), 233-260, (2005)
   

Parkaz A

Hashemi SH et al., Application of response surface methodology to optimize pipette tip micro-solid phase extraction of dyes from seawater by molecularly imprinted polymer and their determination by HPLC.
Journal of the Iranian Chemical Society, 16, (12), 2613-2627, (2019)
   

Parker J

DiCesare JC et al., Book chapter, Progress in developing nerve agent sensors using combinatorial techniques, 
In: Molecularly Imprinted Materials-2003, Kofinas P, Sellergren B, Roberts MJ (Eds.) Materials Research Society: Warrendale, Ch. 3, 17-22, (2004)
   

Parker JL

Parker JL et al., Development of a sensor for the hydrolysis product of the nerve agent Soman utilizing molecular imprinting and silica sol-gel techniques.
Abstracts of Papers of the American Chemical Society, 225, (PMSE), 198-198, (2003)
   

Parlak O

Parlak O et al., Molecularly selective nanoporous membrane-based wearable organic electrochemical device for noninvasive cortisol sensing.
Science Advances, 4, (7), eaar2904-(2018)
   

Parlapiano M

Parlapiano M et al., Selective removal of contaminants of emerging concern (CECs) from urban water cycle via Molecularly Imprinted Polymers (MIPs): Potential of upscaling and enabling reclaimed water reuse.
Journal of Environmental Chemical Engineering, 9, (1), Article105051-(2021)
   

Parmar A

Piletska EV et al., Magnetic high throughput screening system for the development of nano-sized molecularly imprinted polymers for controlled delivery of curcumin.
Analyst, 140, (9), 3113-3120, (2015)
   

Parmar N

Piletska EV et al., Combinatorial screening of polymer nanoparticles for their ability to recognize epitopes of AAV-neutralizing antibodies.
Journal of Molecular Recognition, 33, (4), Article_e2824-(2020)
   

Parmpi P

Parmpi P et al., Biomimetic glucose recognition using molecularly imprinted polymer hydrogels.
Biomaterials, 25, (10), 1969-1973, (2004)
   

Parmpi P et al., Book chapter, Isomeric glucose recognition using molecularly imprinted polymer hydrogels, 
In: Molecularly Imprinted Materials-2003, Kofinas P, Sellergren B, Roberts MJ (Eds.) Materials Research Society: Warrendale, Ch. 12, 79-84, (2004)
   

Parnianchi F

Parnianchi F et al., Highly selective and sensitive molecularly imprinting electrochemical sensing platform for bilirubin detection in saliva.
Microchemical Journal, 168, Article106367-(2021)
   

Parolo C

Zamora-Gálvez A et al., Magnetic nanoparticle-molecular imprinted polymer: A new impedimetric sensor for tributyltin detection.
Electrochemistry Communications, 82, 6-11, (2017)
   

Parra JB

Guardia L et al., Role of surface adsorption and porosity features in the molecular recognition ability of imprinted sol-gels.
Biosensors and Bioelectronics, 23, (7), 1101-1108, (2008)
   

Parra M

Salinas Y et al., Optical chemosensors and reagents to detect explosives.
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Defreese JL et al., Molecular motion of tethered molecules in bulk and surface-functionalized materials: A comparative study of confinement.
Journal of the American Chemical Society, 128, (17), 5687-5694, (2006)
   

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Ini S et al., Proceeding, On route to the chiral imprinting of bulk silica, 
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Parsajoo C

Rostamizadeh K et al., Synthesis, optimization, and characterization of molecularly imprinted nanoparticles.
International Nano Letters, 3, Art. No. 20-(2013)
   

Partoazar A

Jafary Omid N et al., Development of Molecularly Imprinted Olanzapine Nano-particles: In Vitro Characterization and In Vivo Evaluation.
AAPS PharmSciTech, 17, (6), 1457-1467, (2016)
   

Partouche E

Brandis A et al., A two-step strategy to visually identify molecularly imprinted polymers for tagged proteins.
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Parui R

Patra S et al., Anisotropic (spherical/hexagon/cube) silver nanoparticle embedded magnetic carbon nanosphere as platform for designing of tramadol imprinted polymer.
Biosensors and Bioelectronics, 97, 208-217, (2017)
   

Paruli E

Paruli E et al., Photopolymerization and Photostructuring of Molecularly Imprinted Polymers.
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Parvathy J

Anirudhan TS et al., Extended wear therapeutic contact lens fabricated from timolol imprinted carboxymethyl chitosan-g-hydroxy ethyl methacrylate-g-poly acrylamide as a onetime medication for glaucoma.
European Journal of Pharmaceutics and Biopharmaceutics, 109, 61-71, (2016)
   

Parveen S

Pathak A et al., Ultrasensitive, highly selective, and real-time detection of protein using functionalized CNTs as MIP platform for FOSPR-based biosensor.
Nanotechnology, 28, (35), ArticleNo355503-(2017)
   

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Parvinizadeh F et al., Fabrication of a magnetic metal-organic framework molecularly imprinted polymer for extraction of anti-malaria agent hydroxychloroquine.
New Journal of Chemistry, 43, (22), 8508-8516, (2019)
   

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Malihe KS et al., Magnetite molecularly imprinted nanoparticles for selective detection of phenol in wastewater samples followed by high performance liquid chromatography.
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Chikkakuntappa R et al., Microprobe investigation of molecularly imprinted polymers.
Plastics Research Online, (2013)
   

Pasang T et al., Preparation and Characterization of Molecularly Imprinted Polymer for Selective Adsorption of 4-Chlorophenol Molecules by Physical Selectivity Method.
Industrial & Engineering Chemistry Research, 52, (22), 7445-7452, (2013)
   

Pasang T et al., Synthesis and characterization of methacrylic acid-based molecular imprinted polymers by positron lifetime spectroscopy.
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Pasang T et al., Physical Selectivity of Molecularly Imprinted polymers evaluated through free volume size distributions derived from Positron Lifetime Spectroscopy.
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Pascale M et al., Use of itaconic acid-based polymers for solid-phase extraction of deoxynivalenol and application to pasta analysis.
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TrAC Trends in Analytical Chemistry, 28, (6), 758-768, (2009)
   

Munawar H et al., Determination of Fumonisin B1 in maize using molecularly imprinted polymer nanoparticles-based assay.
Food Chemistry, 298, Article125044-(2019)
   

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Bass JD et al., Acid-base bifunctional and dielectric outer-sphere effects in heterogeneous catalysis: A comparative investigation of model primary amine catalysts.
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Prieto A et al., Selective determination of estrogenic compounds in water by microextraction by packed sorbents and a molecularly imprinted polymer coupled with large volume injection-in-port-derivatization gas chromatography-mass spectrometry.
Analytica Chimica Acta, 703, (1), 41-51, (2011)
   

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Vergara AV et al., QCM sensing of a chemical nerve agent analog via electropolymerized molecularly imprinted polythiophene films.
Journal of Polymer Science Part A: Polymer Chemistry, 50, (4), 675-685, (2012)
   

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Otero-Pazos P et al., Active Food Packaging Based on Molecularly Imprinted Polymers: Study of the Release Kinetics of Ferulic Acid.
Journal of Agricultural and Food Chemistry, 62, (46), 11215-11221, (2014)
   

Pasetto P

Maddock SC et al., Novel imprinted soluble microgels with hydrolytic catalytic activity.
Chemical Communications, (5), 536-537, (2004)
   

Pasetto P et al., Synthesis and characterisation of molecularly imprinted catalytic microgels for carbonate hydrolysis.
Analytica Chimica Acta, 542, (1), 66-75, (2005)
   

Hunt CE et al., A fluorescence polarisation molecular imprint sorbent assay for 2, 4-D: a non-separation pseudo-immunoassay.
Chemical Communications, (16), 1754-1756, (2006)
   

Pasetto P et al., Simple spectroscopic method for titration of binding sites in molecularly imprinted nanogels with hydrolase activity.
Biosensors and Bioelectronics, 25, (3), 572-578, (2009)
   

Gonzato C et al., Magnetic Molecularly Imprinted Polymer Nanocomposites via Surface-Initiated RAFT Polymerization.
Advanced Functional Materials, 21, (20), 3947-3953, (2011)
   

Gonzato C et al., On the effect of using RAFT and FRP for the bulk synthesis of acrylic and methacrylic molecularly imprinted polymers.
Polymer Chemistry, 5, (4), 1313-1322, (2014)
   

Pasha A

Singh K et al., Preparation of molecularly imprinted polymers for heptachlor: An organochlorine pesticide.
Chronicles of Young Scientists, 4, (1), 46-50, (2013)
   

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Manickam P et al., Antibody-Free Electrochemical Detection of Cortisol Using Molecularly Imprinted Polymer.
ECS Meeting Abstracts, MA2015-01, (40), 2111-2111, (2015)
   

Manickam P et al., A Reusable Electrochemical Biosensor for Monitoring of Small Molecules (Cortisol) Using Molecularly Imprinted Polymers.
Journal of The Electrochemical Society, 164, (2), B54-B59, (2017)
   

Pashabadi A

Shamsipur M et al., Coupled electrochemical-chemical procedure used in construction of molecularly imprinted polymer-based electrode: a highly sensitive impedimetric melamine sensor.
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Shamsipur M et al., Synthesis, characterization and using a new terpyridine moiety-based ion-imprinted polymer nanoparticle: sub-nanomolar detection of Pb(II) in biological and water samples.
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Pasparakis G et al., Synthetic polymers for capture and detection of microorganisms.
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Pasquardini L

Pasquardini L et al., Molecularly imprinted polymers by epitope imprinting: a journey from molecular interactions to the available bioinformatics resources to scout for epitope templates.
Analytical and Bioanalytical Chemistry, 413, (24), 6101-6115, (2021)
   

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Bansal BN et al., Biosensor Design Aspects for Pesticide Monitoring.
International Journal of Advanced Research in Electronics and Communication Engineering, 7, (4), 403-407, (2018)
   

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Mathur A et al., Development of a Biosensor for Detection of Pleural Mesothelioma Cancer Biomarker Using Surface Imprinting.
PLoS ONE, 8, (3), Article Number: e57681-(2013)
   

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Venkatesh S et al., Transport and structural analysis of molecular imprinted hydrogels for controlled drug delivery.
European Journal of Pharmaceutics and Biopharmaceutics, 69, (3), 852-860, (2008)
   

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Campanella B et al., New polymeric sorbent for the solid-phase extraction of indole-3-acetic acid from plants followed by liquid chromatography - Fluorescence detector.
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Baggiani C et al., Binding behaviour of molecularly imprinted polymers prepared by a hierarchical approach in mesoporous silica beads of varying porosity.
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Baggiani C et al., A Connection between the Binding Properties of Imprinted and Nonimprinted Polymers: A Change of Perspective in Molecular Imprinting.
Journal of the American Chemical Society, 134, (3), 1513-1518, (2012)
   

Giovannoli C et al., An innovative approach to molecularly imprinted capillaries for polar templates by grafting polymerization.
Journal of Molecular Recognition, 25, (6), 377-382, (2012)
   

Baggiani C et al., Effect of the mimic structure on the molecular recognition properties of molecularly imprinted polymers for ochratoxin A prepared by a fragmental approach.
Reactive and Functional Polymers, 73, (6), 833-837, (2013)
   

Giovannoli C et al., Solid phase extraction of penicillins from milk by using sacrificial silica beads as a support for a molecular imprint.
Microchimica Acta, 180, (15-16), 1371-1377, (2013)
   

Giovannoli C et al., Determination of Ochratoxin A in Italian Red Wines by Molecularly Imprinted Solid Phase Extraction and HPLC Analysis.
Journal of Agricultural and Food Chemistry, 62, (22), 5220-5225, (2014)
   

Giovannoli C et al., Comparison of binding behavior for molecularly imprinted polymers prepared by hierarchical imprinting or Pickering emulsion polymerization.
Journal of Separation Science, 38, (20), 3661-3668, (2015)
   

Giovannoli C et al., Affinity Capillary Electrochromatography of Molecularly Imprinted Thin Layers Grafted onto Silica Capillaries Using a Surface-Bound Azo-Initiator and Living Polymerization.
Polymers, 10, (2), ArticleNo192-(2018)
   

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Cavazzini A et al., Recent applications in chiral high performance liquid chromatography: A review.
Analytica Chimica Acta, 706, (2), 205-222, (2011)
   

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Pastinen O et al., Cross-linked glucose isomerase crystals as a liquid chromatographic separation material.
Enzyme and Microbial Technology, 26, (7), 550-558, (2000)
   

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de Oliviera EC et al., Why are carbon molecular sieves interesting?
Journal of the Brazilian Chemical Society, 17, (1), 16-29, (2006)
   

Patachia S

Patachia S et al., Molecularly Imprinted Poly (Vinyl Alcohol) Films for the Selective Absorption of Glycyrrhizinic Acid from Aqueous Solutions.
Environmental Engineering and Management Journal, 8, (4), 663-668, (2009)
   

Patachia S et al., Selectivity studies of caffeine molecularly imprinted poly (vinyl alcohol) hydrogels.
Environmental Engineering and Management Journal, 10, (2), 175-179, (2011)
   

Patachia S et al., Imprinted poly (vinyl alcohol) as a promising tool for xanthine derivatives separation.
Journal of Applied Polymer Science, 122, (3), 2081-2089, (2011)
   

Patachia S et al., Increasing the adsorption capacity and selectivity of poly(vinyl alcohol) hydrogels by an alternative imprinting technique.
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Pataer P

Aihebaier S et al., Membrane-Protected Molecularly Imprinted Polymer for the Microextraction of Indole-3-butyric Acid in Mung Bean Sprouts.
ACS Omega, 4, (16), 16789-16793, (2019)
   

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Journal of Separation Science, 42, (8), 1634-1643, (2019)
   

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Biosensors and Bioelectronics, 191, Article113387-(2021)
   

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White CJ et al., Extended release of high molecular weight hydroxypropyl methylcellulose from molecularly imprinted, extended wear silicone hydrogel contact lenses.
Biomaterials, 32, (24), 5698-5705, (2011)
   

Tieppo A et al., In vitro controlled release of an anti-inflammatory from daily disposable therapeutic contact lenses under physiological ocular tear flow.
European Journal of Pharmaceutics and Biopharmaceutics, 81, (1), 170-177, (2012)
   

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Zhang H et al., MIP for Regioselective Huisgen 1, 3-Dipolar Cycloaddition Reaction.
Synfacts, (7), 0742-0742, (2006)
   

Zhang HQ et al., Molecularly imprinted nanoreactors for regioselective Huisgen 1, 3-dipolar cycloaddition reaction.
Journal of the American Chemical Society, 128, (13), 4178-4179, (2006)
   

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Current Opinion in Chemical Biology, 12, (3), 332-339, (2008)
   

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Patel A et al., Enantioselective molecularly imprinted polymers via ring-opening metathesis polymerisation.
Chemical Communications, (1), 88-89, (2003)
   

Patel A et al., Novel stereoselective molecularly imprinted polymers via ring-opening metathesis polymerisation.
Analytica Chimica Acta, 504, (1), 53-62, (2004)
   

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Patel AK et al., Development of a Creatinine Sensor Based on a Molecularly Imprinted Polymer-Modified Sol-Gel Film on Graphite Electrode.
Electroanalysis, 20, (19), 2102-2112, (2008)
   

Prasad BB et al., Molecularly imprinted polymer-based solid-phase microextraction fiber coupled with molecularly imprinted polymer-based sensor for ultratrace analysis of ascorbic acid.
Journal of Chromatography A, 1198-1199, (1-2), 59-66, (2008)
   

Patel AK et al., Voltammetric sensor for barbituric acid based on a sol-gel derivated molecularly imprinted polymer brush grafted to graphite electrode.
International Journal of Pharmaceutics, 371, (1-2), 47-55, (2009)
   

Patel AK et al., Electrochemical sensor for uric acid based on a molecularly imprinted polymer brush grafted to tetraethoxysilane derived sol-gel thin film graphite electrode.
Materials Science and Engineering: C, 29, (5), 1545-1553, (2009)
   

Prasad BB et al., Zwitterionic molecularly imprinted polymer-based solid-phase micro-extraction coupled with molecularly imprinted polymer sensor for ultra-trace sensing of L-histidine.
Journal of Separation Science, 32, (7), 1096-1105, (2009)
   

Prasad BB et al., Ultratrace analysis of uracil and 5-fluorouracil by molecularly imprinted polymer brushes grafted to silylated solid-phase microextraction fiber in combination with complementary molecularly imprinted polymer-based sensor.
Biomedical Chromatography, 23, (5), 499-509, (2009)
   

Prasad BB et al., Ultratrace Analysis of Dopamine Using a Combination of Imprinted Polymer-Brush-Coated SPME and Imprinted Polymer Sensor Techniques.
Chromatographia, 69, (9), 949-957, (2009)
   

Patel AK et al., Trace-level sensing of creatine in real sample using a zwitterionic molecularly imprinted polymer brush grafted to sol-gel modified graphite electrode.
Thin Solid Films, 518, (10), 2847-2853, (2010)
   

Patel G

Krupadam RJ et al., Highly Sensitive Liquid Chromatography-Mass Spectrometry Detection of Microcystins with Molecularly Imprinted Polymer Extraction from Complicated Aqueous Ecosystems.
Journal of Chromatography & Separation Techniques, 5, (4), Article No 236-(2014)
   

Patel GP

Krupadam RJ et al., Removal of cyanotoxins from surface water resources using reusable molecularly imprinted polymer adsorbents.
Environmental Science and Pollution Research, 19, (5), 1841-1851, (2012)
   

Patel P

Ramström O et al., Food analyses using molecularly imprinted polymers.
Journal of Agricultural and Food Chemistry, 49, (5), 2105-2114, (2001)
   

Brüggemann O et al., Selective extraction of antioxidants with molecularly imprinted polymers.
Analytica Chimica Acta, 504, (1), 81-88, (2004)
   

Koesdjojo MT et al., The Development of a Semiautomated Procedure for the Synthesis and Screening of a Large Group of Molecularly Imprinted Polymers.
Journal of Combinatorial Chemistry, 9, (6), 929-934, (2007)
   

He CY et al., Surface polymer imprinted optical fibre sensor for dose detection of dabrafenib.
Analyst, 145, (13), 4504-4511, (2020)
   

Patel PD

Patel PD, Book chapter, Molecular imprint-based sensors in contaminant analysis, 
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Agrawal YK et al., High performance liquid chromatography (HPLC) for the separation of chiral drugs.
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Patel RP et al., An overview of silica aerogels.
International Journal of ChemTech Research, 1, (4), 1052-1057, (2009)
   

Paterno LG

Braga GS et al., Molecularly Imprinted Polymer Based Sensor for the Detection of Theophylline.
AIP Conference Proceedings, 1362, (1), 289-291, (2011)
   

Pathaburee P

Suedee R et al., Investigation of a self-assembling microgel containing an (S)-propranolol molecularly imprinted polymer in a native tissue microenvironment: Part II. Biological application and testing.
Process Biochemistry, 50, (4), 523-544, (2015)
   

Suedee R et al., Investigation of a self-assembling microgel containing an (S)-propranolol molecularly imprinted polymer in a native tissue microenvironment: Part I. Preparation and characterization.
Process Biochemistry, 50, (4), 517-522, (2015)
   

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Pathak A et al., Ultrasensitive, highly selective, and real-time detection of protein using functionalized CNTs as MIP platform for FOSPR-based biosensor.
Nanotechnology, 28, (35), ArticleNo355503-(2017)
   

Pathak A, Proceeding, Surface Imprinted Carbon Nanotubes as Sensing Matrix for a Plasmonic SMX Sensor, 
ArticleJW3A, (2019)
   

Pathak A et al., Ultra-selective fiber optic SPR platform for the sensing of dopamine in synthetic cerebrospinal fluid incorporating permselective nafion membrane and surface imprinted MWCNTs-PPy matrix.
Biosensors and Bioelectronics, 133, 205-214, (2019)
   

Pathak PK

Prasad BB et al., Development of surface imprinted nanospheres using the inverse suspension polymerization method for electrochemical ultra sensing of dacarbazine.
Analytica Chimica Acta, 974, 75-86, (2017)
   

Pathak PK et al., A novel electrocatalytic nanocomposite of reduced graphene oxide/silver nanocube hybrid decorated imprinted polymer for ultra-trace sensing of temozolomide.
New Journal of Chemistry, 42, (16), 13486-13496, (2018)
   

Kumar A et al., Electrocatalytic Imprinted Polymer of N-Doped Hollow Carbon Nanosphere-Palladium Nanocomposite for Ultratrace Detection of Anticancer Drug 6-Mercaptopurine.
ACS Applied Materials & Interfaces, 11, (17), 16065-16074, (2019)
   

Pathak PK et al., Functionalized nitrogen doped graphene quantum dots and bimetallic Au/Ag core-shell decorated imprinted polymer for electrochemical sensing of anticancerous hydroxyurea.
Biosensors and Bioelectronics, 127, 10-18, (2019)
   

Pathan AA

Kumar A et al., Remediation techniques applied for aqueous system contaminated by toxic Chromium and Nickel ion.
Geology, Ecology, and Landscapes, 1, (2), 143-153, (2017)
   

Kumar A et al., Synthesis, adsorption and analytical applicability of Ni-imprinted polymer for selective adsorption of Ni2+ ions from the aqueous environment.
Polymer Testing, 77, Article105871-(2019)
   

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Patil JS et al., Hydrogel System, a 'Smart' and 'Intelligent' Drug Delivery Device: A Systematic and Concise Review.
Indian Journal of Novel Drug delivery, 6, (2), 93-105, (2014)
   

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Parisi OI et al., Design and development of plastic antibodies against SARS-CoV-2 RBD based on molecularly imprinted polymers that inhibit in vitro virus infection.
Nanoscale, 13, (40), 16885-16899, (2021)
   

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Patiño-Ropero MJ et al., Molecularly imprinted core-shell magnetic nanoparticles for selective extraction of triazines in soils.
Journal of Molecular Recognition, 30, (4), ArticleNoe2593-(2017)
   

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Dey RK et al., Removal of Toxic/Heavy Metal Ions Using Ion-Imprinted Aminofunctionalized Silica Gel.
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Abdullah et al., Evaluation of the performance of a selective magnetite molecularly imprinted polymer for extraction of quercetin from onion samples.
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Saad N et al., Molecularly imprinted phenyl-functionalized silica aerogels: Selective adsorbents for methylxanthines and PAHs.
Microporous And Mesoporous Materials, 292, Article109759-(2020)
   

Patra KH

Yilmaz E et al., Molecular Imprinting Applications in Forensic Science.
Sensors, 17, (4), ArticleNo691-(2017)
   

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Roy E et al., Simultaneous determination of heavy metals in biological samples by a multiple-template imprinting technique: an electrochemical study.
RSC Advances, 4, (100), 56690-56700, (2014)
   

Roy E et al., Gold nanoparticle mediated designing of non-hydrolytic sol-gel cross-linked metformin imprinted polymer network: A theoretical and experimental study.
Talanta, 120, 198-207, (2014)
   

Roy E et al., A metronidazole-probe sensor based on imprinted biocompatible nanofilm for rapid and sensitive detection of anaerobic protozoan.
RSC Advances, 4, (62), 32881-32893, (2014)
   

Patra S et al., Bimetallic magnetic nanoparticle as a new platform for fabrication of pyridoxine and pyridoxal-5'-phosphate imprinted polymer modified high throughput electrochemical sensor [RETRACTED].
Biosensors and Bioelectronics, 73, 234-244, (2015)
   

Patra S et al., Fast and Selective Preconcentration of Europium from Wastewater and Coal Soil by Graphene Oxide/Silane@Fe3O4 Dendritic Nanostructure.
Environmental Science & Technology, 49, (10), 6117-6126, (2015)
   

Patra S et al., RETRACTED Imprinted ZnO nanostructure-based electrochemical sensing of calcitonin: A clinical marker for medullary thyroid carcinoma.
Analytica Chimica Acta, 853, 271-284, (2015)
   

Patra S et al., Nano-iniferter based imprinted sensor for ultra trace level detection of prostate-specific antigen in both men and women.
Biosensors and Bioelectronics, 66, 1-10, (2015)
   

Patra S et al., An imprinted Ag@CdS core shell nanoparticle based optical-electrochemical dual probe for trace level recognition of ferritin.
Biosensors and Bioelectronics, 63, 301-310, (2015)
   

Patra S et al., RETRACTED: Bimetallic magnetic nanoparticle as a new platform for fabrication of pyridoxine and pyridoxal-5'-phosphate imprinted polymer modified high throughput electrochemical sensor.
Biosensors and Bioelectronics, 73, 234-244, (2015)
   

Roy E et al., Developing electrochemical sensor for point-of-care diagnostics of oxidative stress marker using imprinted bimetallic Fe/Pd nanoparticle.
Talanta, 132, 406-415, (2015)
   

Roy E et al., Development of an imprinted polymeric sensor with dual sensing property for trace level estimation of zinc and arginine.
Materials Science and Engineering: C, 49, 25-33, (2015)
   

Karfa P et al., RETRACTED A fluorescent molecularly-imprinted polymer gate with temperature and pH as inputs for detection of alpha-fetoprotein.
Biosensors and Bioelectronics, 78, 454-463, (2016)
   

Kumar S et al., Molecularly imprinted star polymer-modified superparamagnetic iron oxide nanoparticle for trace level sensing and separation of mancozeb.
RSC Advances, 6, (43), 36751-36760, (2016)
   

Patra S et al., Nanocomposite of bimetallic nanodendrite and reduced graphene oxide as a novel platform for molecular imprinting technology.
Analytica Chimica Acta, 918, 77-88, (2016)
   

Patra S et al., RETRACTED Size-specific imprinted polymer embedded carbon nanodots modified magnetic nanoparticle for specific recognition of titanium nanoparticle: The round versus round.
Biosensors and Bioelectronics, 86, 818-826, (2016)
   

Roy E et al., A single solution for arsenite and arsenate removal from drinking water using cysteine@ZnS:TiO2 nanoparticle modified molecularly imprinted biofouling-resistant filtration membrane.
Chemical Engineering Journal, 304, 259-270, (2016)
   

Patra S et al., Triple signalling mode carbon dots-based biodegradable molecularly imprinted polymer as a multi-tasking visual sensor for rapid and "on-site" monitoring of silver ions.
Journal of Materials Chemistry C, 5, (45), 11965-11976, (2017)
   

Patra S et al., RETRACTED Graphene quantum dots decorated CdS doped graphene oxide sheets in dual action mode: As initiator and platform for designing of nimesulide imprinted polymer (Retracted).
Biosensors and Bioelectronics, 89, 627-635, (2017)
   

Patra S et al., RETRACTED Removal and Recycling of Precious Rare Earth Element from Wastewater Samples Using Imprinted Magnetic Ordered Mesoporous Carbon.
ACS Sustainable Chemistry & Engineering, 5, (8), 6910-6923, (2017)
   

Patra S et al., Anisotropic (spherical/hexagon/cube) silver nanoparticle embedded magnetic carbon nanosphere as platform for designing of tramadol imprinted polymer.
Biosensors and Bioelectronics, 97, 208-217, (2017)
   

Patra S et al., Imprinted magnetic graphene oxide for the mini-solid phase extraction of Eu (III) from coal mine area.
AIP Conference Proceedings, 1832, (1), ArticleNo050009-(2017)
   

Roy E et al., RETRACTED Single cell imprinting on the surface of Ag-ZnO bimetallic nanoparticle modified graphene oxide sheets for targeted detection, removal and photothermal killing of E. Coli (Retracted).
Biosensors and Bioelectronics, 89, (Part 1), 620-626, (2017)
   

Roy E et al., Introduction of selectivity and specificity to graphene using an inimitable combination of molecular imprinting and nanotechnology.
Biosensors and Bioelectronics, 89, (Part 1), 234-248, (2017)
   

Roy E et al., Shape effect on the fabrication of imprinted nanoparticles: Comparison between spherical-, rod-, hexagonal-, and flower-shaped nanoparticles.
Chemical Engineering Journal, 321, 195-206, (2017)
   

Patra S et al., Retraction notice to "Graphene quantum dots decorated CdS doped graphene oxide sheets in dual action mode: as initiator and platform for designing of nimesulide imprinted polymer " [BIOS 89P1 (2017) 627-635].
Biosensors and Bioelectronics, 114, 89-(2018)
   

Patra S et al., Retracted: Imprinted ZnO nanostructure-based electrochemical sensing of calcitonin: A clinical marker for medullary thyroid carcinoma.
Analytica Chimica Acta, 1023, 121-121, (2018)
   

Patra S et al., Retraction of "Removal and Recycling of Precious Rare Earth Element from Wastewater Samples Using Imprinted Magnetic Ordered Mesoporous Carbon".
ACS Sustainable Chemistry & Engineering, 6, (7), 9520-9520, (2018)
   

Roy E et al., Retraction notice to Single cell imprinting on the surface of Ag-ZnO bimetallic nanoparticle modified graphene oxide sheets for targeted detection, removal and photothermal killing of E. Coli Biosensors and Bioelectronics Volume 89, Part 1, 15 March 2017, Pages 620-626.
Biosensors and Bioelectronics, 112, 216-(2018)
   

Karfa P et al., Retraction to "A Fluorescent molecularly-imprinted polymer gate with temperature and pH as inputs for detection of alpha-fetoprotein", [Biosensors and Bioelectronics, 78 (2016) 454-463].
Biosensors and Bioelectronics, 124-125, 268-268, (2019)
   

Patra S et al., Retraction notice to "Size-specific imprinted polymer embedded carbon nanodots modified magnetic nanoparticle for specific recognition of titanium nanoparticle: The round versus round", [Biosensors and Bioelectronics, 86 (2016) 818-826].
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Paul N et al., Molecularly imprinted conductive polymers for controlled trafficking of neurotransmitters at solid-liquid interfaces.
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Paul PK et al., Improvement in insulin absorption into gastrointestinal epithelial cells by using molecularly imprinted polymer nanoparticles: Microscopic evaluation and ultrastructure.
International Journal of Pharmaceutics, 530, (1-2), 279-290, (2017)
   

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Nestic M et al., Molecularly imprinted solid phase extraction for simultaneous determination of [Delta]9-tetrahydrocannabinol and its main metabolites by gas chromatography-mass spectrometry in urine samples.
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Lin ZZ et al., Determination of domoic acid in shellfish extracted by molecularly imprinted polymers.
Journal of Separation Science, 39, (16), 3254-3259, (2016)
   

Li L et al., Biomimetic ELISA detection of malachite green based on molecularly imprinted polymer film.
Food Chemistry, 229, 403-408, (2017)
   

Lin ZZ et al., HPLC determination of domoic acid in shellfish based on magnetic molecularly imprinting polymers.
International Journal of Polymer Analysis and Characterization, 22, (3), 202-209, (2017)
   

Wu L et al., Rapid detection of malachite green in fish based on CdTe quantum dots coated with molecularly imprinted silica.
Food Chemistry, 229, 847-853, (2017)
   

Li L et al., Rapid detection of sulfaguanidine in fish by using a photonic crystal molecularly imprinted polymer.
Food Chemistry, 281, 57-62, (2019)
   

Lin ZZ et al., Molecularly imprinted polymer-based photonic crystal sensor array for the discrimination of sulfonamides.
Analytica Chimica Acta, 1101, 32-40, (2020)
   

Peng C

Peng C et al., Preparation of a fragment imprinted polymer for recognition of triazole pesticides and its application to solid-phase extraction.
Chemical Journal of Chinese Universities, 30, (11), 2159-2164, (2009)
   

Wang XH et al., Comparison of multi-recognition molecularly imprinted polymers for recognition of melamine, cyromazine, triamterene, and trimethoprim.
Analytical and Bioanalytical Chemistry, 407, (23), 7145-7155, (2015)
   

Kong XJ et al., Synthesis of multirecognition magnetic molecularly imprinted polymer by atom transfer radical polymerization and its application in magnetic solid-phase extraction.
Analytical and Bioanalytical Chemistry, 410, (1), 247-257, (2018)
   

Peng C et al., Facile Synthesis of Boronate Affinity-Based Molecularly Imprinted Monolith with Reduced Capturing pH Towards Cis-Diol-Containing Compounds.
Chromatographia, 82, (7), 1029-1040, (2019)
   

Duan R et al., Integrating boronate affinity controllable-oriented surface imprinting nylon wire and pH-triggered allochroic-graphene oxide for ultrasensitive detection of glycoprotein.
Sensors and Actuators B: Chemical, 330, Article129310-(2021)
   

Zhang LX et al., Rapid and ultrasensitive detection of ellagic acid by integrating boronate-affinity controllable-oriented imprinted magnetic nanoparticle and boronic acid-modified / polyethylene glycol-coated allochroic-graphene oxide.
Sensors and Actuators B: Chemical, 345, Article130400-(2021)
   

Peng CF

Sun FX et al., Analytical methods and recent developments in the detection of melamine.
TrAC Trends in Analytical Chemistry, 29, (11), 1239-1249, (2010)
   

Peng CH

Qiu XZ et al., Determination of Resveratrol in Peanut Root Using Molecularly Imprinted Polymers Multiplug Filtration Clean up Column Coupled with Fluorescence Spectrometry.
Journal of Instrumental Analysis, 34, (12), 1403-1407, (2015)
   

Tian DY et al., Synthesis, Characterization and Adsorption Behavior of Cd(II) Ion-Imprinted Mesoporous Materials.
Science of Advanced Materials, 10, (3), 324-330, (2018)
   

Peng CL

Lee SC et al., Studies on the Preparation and Properties of Sol-Gel Molecularly Imprinted Polymer Based on Tetramethoxysilane and Methyltrimethoxysilane for Recognized Sulfonamides.
Polymer Journal, 41, (12), 1092-1097, (2009)
   

Peng CW

Song YH et al., A dopamine-imprinted chitosan Film/Porous ZnO NPs@carbon Nanospheres/Macroporous carbon for electrochemical sensing dopamine.
Sensors and Actuators B: Chemical, 298, Article126949-(2019)
   

Peng DD

Shi Y et al., Selective determination of trace 17[beta]-estradiol in dairy and meat samples by molecularly imprinted solid-phase extraction and HPLC.
Food Chemistry, 126, (4), 1916-1925, (2011)
   

Peng DH

Peng DH et al., Novel visible-light-responsive photoelectrochemical sensor of 2, 4-dichlorophenoxyacetic acid using molecularly imprinted polymer/BiOI nanoflake arrays.
Electrochemistry Communications, 47, 9-12, (2014)
   

Gong JM et al., A highly sensitive photoelectrochemical detection of perfluorooctanic acid with molecularly imprined polymer-functionalized nanoarchitectured hybrid of AgI-BiOI composite.
Biosensors and Bioelectronics, 73, 256-263, (2015)
   

Peng DP

Peng DP et al., Enzyme-linked immunoassay based on imprinted microspheres for the detection of sulfamethazine residue.
Journal of Chromatography A, 1506, 9-17, (2017)
   

Li ZZ et al., Selective Solid-Phase Extraction of Sulfonamides from Edible Swine Tissues Using High-Performance Imprinted Polymers.
Food Analytical Methods, 13, (6), 1304-1313, (2020)
   

Peng F

Xie YL et al., Molecular imprinting and adsorption of bovine serum albumin on nanocrystalline titania films.
Chinese Journal of Analytical Chemistry, 35, (4), 555-558, (2007)
   

Peng GM

Wu SQ et al., Binding characteristics of homogeneous molecularly imprinted polymers for acyclovir using an (acceptor-donor-donor)-(donor-acceptor-acceptor) hydrogen-bond strategy, and analytical applications for serum samples.
Journal of Chromatography A, 1285, 124-131, (2013)
   

Peng H

Liang CD et al., Study of a molecular imprinting polymer coated BAW bio-mimic sensor and its application to the determination of caffeine in human serum and urine.
Analyst, 124, 1781-1785, (1999)
   

Liang CD et al., Molecular imprinting polymer coated BAW bio-mimic sensor for direct determination of epinephrine.
Analytica Chimica Acta, 415, (1-2), 135-141, (2000)
   

Liang CD et al., Bulk acoustic wave sensor for herbicide assay based on molecularly imprinted polymer.
Fresenius Journal of Analytical Chemistry, 367, (6), 551-555, (2000)
   

Peng H et al., Non-aqueous assay system for phenobarbital using biomimetic bulk acoustic wave sensor based on a molecularly imprinted polymer.
Analytical Letters, 33, (5), 793-808, (2000)
   

Peng H et al., Bulk acoustic wave sensor using molecularly imprinted polymers as recognition elements for the determination of pyrimethamine.
Talanta, 52, (3), 441-448, (2000)
   

Peng H et al., Development of a new atropine sulfate bulk acoustic wave sensor based on a molecularly imprinted electrosynthesized copolymer of aniline with o-phenylenediamine.
Analytica Chimica Acta, 423, (2), 221-228, (2000)
   

Yao SZ et al., Biomimetic bulk acoustic wave sensor for determination of trimethoprim in the organic phase based on a molecular imprinting polymer.
Analytical Sciences, 16, (2), 211-215, (2000)
   

Peng H et al., Development of a thickness shear mode acoustic sensor based on an electrosynthesized molecularly imprinted polymer using an underivatized amino acid as the template.
Analyst, 126, (2), 189-194, (2001)
   

Tan YG et al., A new assay system for phenacetin using biomimic bulk acoustic wave sensor with a molecularly imprinted polymer coating.
Sensors and Actuators B: Chemical, 73, (2-3), 179-184, (2001)
   

Tan YG et al., A study of a new TSM bio-mimetic sensor using a molecularly imprinted polymer coating and its application for the determination of nicotine in human serum and urine.
Bioelectrochemistry, 53, (2), 141-148, (2001)
   

Liu YH et al., Enantioseparation of DL-phenylalanine, based on a continuous molecularly imprinted polymer rod, using a series quartz crystal sensor as the detector.
Instrumentation Science & Technology, 30, (4), 455-464, (2002)
   

Peng H et al., Characterization of electrosynthesized poly(o-aminophenol) as a molecular imprinting material for sensor preparation by means of quartz crystal impedance analysis.
Analytical Letters, 35, (3), 435-450, (2002)
   

Qin YT et al., Highly Effective Drug Delivery and Cell Imaging Using Fluorescent Double-Imprinted Nanoparticles by Targeting Recognition of the Epitope of Membrane Protein.
Analytical Chemistry, 91, (20), 12696-12703, (2019)
   

Peng H et al., Epitope Molecularly Imprinted Polymer Nanoparticles for Chemo-/Photodynamic Synergistic Cancer Therapy Guided by Targeted Fluorescence Imaging.
ACS Applied Materials & Interfaces, 12, (11), 13360-13370, (2020)
   

Peng HB

Zhang K et al., Electrochemical assays for the detection of TBBPA in plastic products based on rGO/AgNDs nanocomposites and molecularly imprinted polymers.
Journal of Electroanalytical Chemistry, 862, Article114022-(2020)
   

Peng HJ

Xiao H et al., Preparation and evaluation of surface molecularly imprinted polymers as stationary phase columns for high performance liquid chromatography.
Analytical Methods, 8, (44), 7951-7958, (2016)
   

Peng HL

Li JH et al., Label-free colorimetric detection of trace cholesterol based on molecularly imprinted photonic hydrogels.
Journal of Materials Chemistry, 21, (48), 19267-19274, (2011)
   

Peng HL et al., Molecularly Imprinted Photonic Hydrogels as Colorimetric Sensors for Rapid and Label-free Detection of Vanillin.
Journal of Agricultural and Food Chemistry, 60, (8), 1921-1928, (2012)
   

Wang SQ et al., Preparation and Recognition Mechanism of Vanillin Molecularly Imprinted Polymer Microspheres.
Food Science, 33, (23), 1-7, (2012)
   

Zhang Z et al., Selective Solid-Phase Extraction of Sudan I in Chilli Sauce by Single-Hole Hollow Molecularly Imprinted Polymers.
Journal of Agricultural and Food Chemistry, 60, (1), 180-187, (2012)
   

Dong RC et al., Thermosensitive molecularly imprinted polymers on porous carriers: Preparation, characterization and properties as novel adsorbents for bisphenol A.
Talanta, 130, 182-191, (2014)
   

Ning FJ et al., Preparation and Characterization of Superparamagnetic Molecularly Imprinted Polymers for Selective Adsorption and Separation of Vanillin in Food Samples.
Journal of Agricultural and Food Chemistry, 62, (46), 11138-11145, (2014)
   

Ning FJ et al., Molecularly Imprinted Polymer on Magnetic Graphene Oxide for Fast and Selective Extraction of 17[beta]-Estradiol.
Journal of Agricultural and Food Chemistry, 62, (30), 7436-7443, (2014)
   

Peng HL et al., Preparation of photonic-magnetic responsive molecularly imprinted microspheres and their application to fast and selective extraction of 17[beta]-estradiol.
Journal of Chromatography A, 1442, 1-11, (2016)
   

Fan JP et al., A molecular imprinted polymer on the surface of superparamagnetic Fe3O4-graphene oxide (MIP@Fe3O4@GO) for simultaneous recognition and enrichment of evodiamine and rutaecarpine in Evodiae fructus.
Journal of Applied Polymer Science, 134, (7), ArticleNo44465-(2017)
   

Ning FJ et al., Dummy-surface molecularly imprinted polymers on magnetic graphene oxide for rapid and selective quantification of acrylamide in heat-processed (including fried) foods.
Food Chemistry, 221, 1797-1804, (2017)
   

Yang Q et al., Label-free colorimetric detection of tetracycline using analyte-responsive inverse-opal hydrogels based on molecular imprinting technology.
New Journal of Chemistry, 41, (18), 10174-10180, (2017)
   

Fan JP et al., Preparation, characterization, and application of multiple stimuli-responsive rattle-type magnetic hollow molecular imprinted poly (ionic liquids) nanospheres (Fe3O4@void@PILMIP) for specific recognition of protein.
Chemical Engineering Journal, 337, 722-732, (2018)
   

Fan JP et al., Preparation of a novel supermacroporous molecularly imprinted cryogel membrane with a specific ionic liquid for protein recognition and permselectivity.
Journal of Applied Polymer Science, 135, (41), ArticleNo46740-(2018)
   

Xiong HH et al., Switchable zipper-like thermoresponsive molecularly imprinted polymers for selective recognition and extraction of estradiol.
Talanta, 176, 187-194, (2018)
   

Yang Q et al., Strategies of molecular imprinting-based fluorescence sensors for chemical and biological analysis.
Biosensors and Bioelectronics, 112, 54-71, (2018)
   

Yang Q et al., Simultaneous phase-inversion and imprinting based sensor for highly sensitive and selective detection of bisphenol A.
Talanta, 176, 595-603, (2018)
   

Zhu WT et al., Zipper-like magnetic molecularly imprinted microspheres for on/off-switchable recognition and extraction of 17[beta]-estradiol from food samples.
Food Chemistry, 261, 87-95, (2018)
   

Wen T et al., A nanowell-based molecularly imprinted electrochemical sensor for highly sensitive and selective detection of 17[beta]-estradiol in food samples.
Food Chemistry, 297, Article124968-(2019)
   

Yang Q et al., Dual-emission color-controllable nanoparticle based molecular imprinting ratiometric fluorescence sensor for the visual detection of Brilliant Blue.
Sensors and Actuators B: Chemical, 284, 428-436, (2019)
   

Fan JP et al., Preparation of a novel mixed non-covalent and semi-covalent molecularly imprinted membrane with hierarchical pores for separation of genistein in Radix Puerariae Lobatae.
Reactive and Functional Polymers, 146, Article104439-(2020)
   

Li CY et al., Facile approach to the synthesis of molecularly imprinted ratiometric fluorescence nanosensor for the visual detection of folic acid.
Food Chemistry, 319, Article126575-(2020)
   

Yang Q et al., Rational construction of a triple emission molecular imprinting sensor for accurate naked-eye detection of folic acid.
Nanoscale, 12, (11), 6529-6536, (2020)
   

Zhu WT et al., A novel magnetic fluorescent molecularly imprinted sensor for highly selective and sensitive detection of 4-nitrophenol in food samples through a dual-recognition mechanism.
Food Chemistry, 348, Article129126-(2021)
   

Peng J

Xiao DL et al., Preparation of molecularly imprinted polymers on the surface of magnetic carbon nanotubes with a pseudo template for rapid simultaneous extraction of four fluoroquinolones in egg samples.
Analyst, 138, (11), 3287-3296, (2013)
   

He H et al., Preparation of a core-shell magnetic ion-imprinted polymer via a sol-gel process for selective extraction of Cu(II) from herbal medicines.
Analyst, 139, (10), 2459-2466, (2014)
   

Bai HP et al., A novel sensitive electrochemical sensor based on in-situ polymerized molecularly imprinted membranes at graphene modified electrode for artemisinin determination.
Biosensors and Bioelectronics, 64, 352-358, (2015)
   

Bai HP et al., A Novel Sensitive Electrochemical Sensor for Podophyllotoxin Assay Based on the Molecularly Imprinted Poly-o-Phenylenediamine Film.
Journal of Nanoscience and Nanotechnology, 15, (3), 2456-2463, (2015)
   

He HL et al., A Novel Molecularly Imprinted Polymer for the Solid-Phase Extraction of Tanshinones from Serum.
Analytical Letters, 48, (1), 47-60, (2015)
   

Xiao DL et al., Applications of magnetic surface imprinted materials for solid phase extraction of levofloxacin in serum samples.
Journal of Molecular Recognition, 28, (5), 277-284, (2015)
   

Peng J et al., Molecularly imprinted polymeric stir bar: Preparation and application for the determination of naftopidil in plasma and urine samples.
Journal of Separation Science, 39, (2), 383-390, (2016)
   

Peng J et al., New techniques of on-line biological sample processing and their application in the field of biopharmaceutical analysis.
Acta Pharmaceutica Sinica B, 6, (6), 540-551, (2016)
   

Zuo PL et al., A sol-gel based molecular imprint incorporating carbon dots for fluorometric determination of nicotinic acid.
Microchimica Acta, 183, (1), 329-336, (2016)
   

Peng J et al., Molecularly imprinted polymers based stir bar sorptive extraction for determination of cefaclor and cefalexin in environmental water.
Analytical and Bioanalytical Chemistry, 409, (17), 4157-4166, (2017)
   

Zheng YL et al., Determination of sulfonylurea herbicide residues in tobacco leaves by molecularly imprinted-solid phase extraction-high performance liquid chromatography.
Chinese Journal of Chromatography, 36, (7), 659-664, (2018)
   

Ma YM et al., Construction of an NAND logic gate based on molecularly imprinted dual-emission quantum dot composites for the detection of antibiotics.
Analytical Methods, 11, (15), 2033-2040, (2019)
   

Zhang MX et al., Comparative analysis of atrazine molecularly imprinted polymers using acetonitrile and toluene as solvents.
Journal of Applied Polymer Science, 136, (11), Article47190-(2019)
   

Tong ZH et al., Preparation and application of simetryn-imprinted nanoparticles in triazine herbicide residue analysis.
Journal of Separation Science, 43, (6), 1107-1118, (2020)
   

Zhang Y et al., Magnetic hyperbranched molecularly imprinted polymers for selective enrichment and determination of zearalenone in wheat proceeded by HPLC-DAD analysis.
Talanta, 209, Article120555-(2020)
   

Tong ZH et al., Highly selective and responsive detection of simetryn in tobacco samples based on molecularly imprinted photonic crystal hydrogels.
Polymer Testing, 104, Article107386-(2021)
   

Peng JB

Chen Y et al., Use of a new magnetic ion-imprinted nanocomposite adsorbent for selective and rapid preconcentration and determination of trace nickel by flame atomic absorption spectrometry.
Analytical Methods, 8, (4), 824-829, (2016)
   

Liu Y et al., Selective Ce(III) ion-imprinted polymer grafted on Fe3O4 nanoparticles supported by SBA-15 mesopores microreactor via surface-initiated RAFT polymerization.
Microporous And Mesoporous Materials, 234, 176-185, (2016)
   

Qin CC et al., A Novel Electrochemical Sensor Based on Graphene Oxide Decorated with Silver Nanoparticles-Molecular Imprinted Polymers for Determination of Sunset Yellow in Soft Drinks.
Food Analytical Methods, 10, (7), 2293-2301, (2017)
   

Peng JD

Gao T et al., Preparation and characterization of photoresponsive organic-inorganic hybrid molecularly imprinted polymers.
Chemical Journal of Chinese Universities, 33, (12), 2801-2808, (2012)
   

Tang Q et al., Photo-responsive molecularly imprinted hydrogels for the detection of melamine in aqueous media.
Journal of Materials Chemistry, 22, (37), 19812-19820, (2012)
   

Gong CB et al., The preparation and characterization of photo-responsive sol-gel materials for 2, 4-dichlorophenoxyacetic acid by surface imprinting.
Journal of Sol-Gel Science and Technology, 67, (3), 442-450, (2013)
   

Yang YZ et al., Ultrasensitive detection of bisphenol A in aqueous media using photoresponsive surface molecular imprinting polymer microspheres.
New Journal of Chemistry, 38, (4), 1780-1788, (2014)
   

Xiao H et al., Preparation and evaluation of surface molecularly imprinted polymers as stationary phase columns for high performance liquid chromatography.
Analytical Methods, 8, (44), 7951-7958, (2016)
   

Peng JS

Antwi-Boampong S et al., A Molecularly Imprinted Fluoral-P/Polyaniline Double Layer Sensor System for Selective Sensing of Formaldehyde.
IEEE Sensors Journal, 14, (5), 1490-1498, (2014)
   

Peng JX

Yang SM et al., Study of horseradish peroxidase and hydrogen peroxide bi-analyte sensor with boronate affinity-based molecularly imprinted film.
Canadian Journal of Chemistry - Revue Canadienne de Chimie, 97, (12), 833-839, (2019)
   

Peng JY

Sun H et al., Solid-phase extraction based on a molecularly imprinted polymer for the selective determination of four benzophenones in tap and river water.
Journal of Separation Science, 38, (19), 3412-3420, (2015)
   

Sun XL et al., Determination of nine bisphenols in sewage and sludge using dummy molecularly imprinted solid-phase extraction coupled with liquid chromatography tandem mass spectrometry.
Journal of Chromatography A, 1552, 10-16, (2018)
   

Peng JY et al., Selective photocatalytic degradation of tetracycline by metal-free heterojunction surface imprinted photocatalyst based on magnetic fly ash.
Inorganic Chemistry Communications, 106, 202-210, (2019)
   

Peng JY et al., Enhanced selectivity for photodegrading ciprofloxacin by a magnetic photocatalyst modified with a POPD-CdS heterojunction embedded imprinted layer.
New Journal of Chemistry, 43, (6), 2610-2623, (2019)
   

Sun XL et al., Dummy molecularly imprinted solid phase extraction of climbazole from environmental water samples.
Talanta, 196, 47-53, (2019)
   

Peng K

Tomatsu I et al., Photoresponsive hydrogels for biomedical applications.
Advanced Drug Delivery Reviews, 63, (14-15), 1257-1266, (2011)
   

Peng KL

Zhou H et al., Preparation of surface molecularly imprinted polymer and its application for the selective extraction of teicoplanin from water.
RSC Advances, 11, (22), 13615-13623, (2021)
   

Peng L

Xu S et al., Theoretical study on interaction mechanism between uracil and its molecularly imprinted membrane.
Computers and Applied Chemistry, 24, (6), 847-851, (2007)
   

Peng L et al., Molecularly imprinted polymer for solid-phase extraction of rutin in complicated traditional Chinese medicines.
Analyst, 136, (4), 756-763, (2011)
   

Dechtrirat D et al., Book chapter, Catalytically Active MIP Architectures, 
In: Molecularly Imprinted Catalysts: Principles, Syntheses and Applications, Li SJ, Cao SS, Piletsky SA, Turner APF (Eds.) Elsevier: Amsterdam, Ch. 2, 19-34, (2016)
   

Peng L et al., Molecularly Imprinted Electropolymer for a Hexameric Heme Protein with Direct Electron Transfer and Peroxide Electrocatalysis.
Sensors, 16, (3), ArticleNo272-(2016)
   

Wang WJ et al., Efficient fabrication of ratiometric fluorescence imprinting sensors based on organic-inorganic composite materials and highly sensitive detection of oxytetracycline in milk.
Microchemical Journal, 157, Article105053-(2020)
   

Peng MJ

Zhang ZH et al., Novel magnetic bovine serum albumin imprinted polymers with a matrix of carbon nanotubes, and their application to protein separation.
Analytical and Bioanalytical Chemistry, 401, (9), 2855-2863, (2011)
   

Zhang ZH et al., A Polypyrrole-Imprinted Electrochemical Sensor Based on Nano-SnO2/Multiwalled Carbon Nanotubes Film Modified Carbon Electrode for the Determination of Oleanolic Acid.
Electroanalysis, 23, (10), 2446-2455, (2011)
   

Chen X et al., Novel molecularly imprinted polymers based on multiwalled carbon nanotubes with bifunctional monomers for solid-phase extraction of rhein from the root of kiwi fruit.
Journal of Separation Science, 35, (18), 2414-2421, (2012)
   

Yang X et al., Preparation of Bis(2-ethylhexyl) phthalate Imprinted Polymers Based on Multi-walled Carbon Nanotubes Surface and Its Application in Solid Phase Extraction.
Chinese Journal of Analytical Chemistry, 40, (6), 870-876, (2012)
   

You QP et al., Preparation of magnetic dummy molecularly imprinted polymers for selective extraction and analysis of salicylic acid in Actinidia chinensis.
Analytical and Bioanalytical Chemistry, 406, (3), 831-839, (2014)
   

Peng MJ et al., Boronate affinity-based surface molecularly imprinted polymers using glucose as fragment template for excellent recognition of glucosides.
Journal of Chromatography A, 1474, 8-13, (2016)
   

Fan DX et al., Synthesis and characterization of hollow porous molecular imprinted polymers for the selective extraction and determination of caffeic acid in fruit samples.
Food Chemistry, 224, 32-36, (2017)
   

Xiang HY et al., High-capacity hollow porous dummy molecular imprinted polymers using ionic liquid as functional monomer for selective recognition of salicylic acid.
Journal of Pharmaceutical and Biomedical Analysis, 133, 75-81, (2017)
   

Peng MJ et al., Magnetic Porous Molecularly Imprinted Polymers Based on Surface Precipitation Polymerization and Mesoporous SiO2 Layer as Sacrificial Support for Efficient and Selective Extraction and Determination of Chlorogenic Acid in Duzhong Brick Tea.
Molecules, 23, (7), ArticleNo1554-(2018)
   

Wang ZH et al., Molecularly Imprinted Polymers-Coated CdTe Quantum Dots for Highly Sensitive and Selective Fluorescent Determination of Ferulic Acid.
Journal of Analytical Methods in Chemistry, 2019, Article1505878-(2019)
   

Peng ML

Wei ZM et al., The preparation and adsorption properties of electrospun aramid nanofibers.
Journal of Polymer Science Part B: Polymer Physics, 50, (20), 1414-1420, (2012)
   

Peng N

Yan FC et al., Preparation of Molecularly Imprinted Polymers for 6-Gingerol Separation.
Food Science, 30, (20), 227-230, (2009)
   

Peng N et al., Preparation and Binding Characteristics of Molecularly Imprinted Polymers for Furan.
Chinese Journal of Analytical Chemistry, 38, (4), 559-563, (2010)
   

Sun J et al., Proceeding, Preparation and Binding Characteristics of Molecularly Imprinted Polymers for Capsaicin, 
Chen R, Sun DY, Sung WP (Eds.), 582-585, (2012)
   

Peng PC

Wang ZM et al., A highly sensitive and selective sensor for trace uranyl (VI) ion based on a graphene-coated carbon paste electrode modified with ion imprinted polymer.
Microchemical Journal, 155, Article104767-(2020)
   

Peng Q

Zheng SJ et al., Ag(I) Pyridine-Amidoxime Complex as the Catalysis Activity Domain for the Rapid Hydrolysis of Organothiophosphate-Based Nerve Agents: Mechanistic Evaluation and Application.
ACS Applied Materials & Interfaces, 13, (29), 34428-34437, (2021)
   

Peng QC

Li YY et al., Aggregation-induced emission luminogen based molecularly imprinted ratiometric fluorescence sensor for the detection of Rhodamine 6G in food samples.
Food Chemistry, 287, 55-60, (2019)
   

Peng QH

Li Z et al., Recent development and application of solid phase extraction materials.
Reviews on Advanced Materials Science, 49, (1), 87-111, (2017)
   

Peng QL

He H et al., Controllably prepared molecularly imprinted core-shell plasmonic nanostructure for plasmon-enhanced fluorescence assay.
Biosensors and Bioelectronics, 146, Article111733-(2019)
   

Peng RF

Tan L et al., Development of hybrid organic-inorganic surface imprinted Mn-doped ZnS QDs and their application as a sensing material for target proteins.
Biosensors and Bioelectronics, 61, 506-511, (2014)
   

Tan L et al., A fluorescent turn-on detection scheme for [alpha]-fetoprotein using quantum dots placed in a boronate-modified molecularly imprinted polymer with high affinity for glycoproteins.
Microchimica Acta, 182, (15-16), 2615-2622, (2015)
   

Tan L et al., Antibody-free ultra-high performance liquid chromatography/tandem mass spectrometry measurement of angiotensin I and II using magnetic epitope-imprinted polymers.
Journal of Chromatography A, 1411, 69-76, (2015)
   

Tan L et al., Ultra-high performance liquid chromatography combined with mass spectrometry for determination of aflatoxins using dummy molecularly imprinted polymers deposited on silica-coated magnetic nanoparticles.
Microchimica Acta, 183, (4), 1469-1477, (2016)
   

Tan L et al., Temperature sensitive molecularly imprinted microspheres for solid-phase dispersion extraction of malachite green, crystal violet and their leuko metabolites.
Microchimica Acta, 183, (11), 2991-2999, (2016)
   

Peng RF et al., An investigation of template anchoring strategy for molecularly imprinting materials based on nanomagnetic polyhedral oligomeric silsesquioxanes composites.
Journal of Chromatography A, 1597, 28-38, (2019)
   

Peng RT

Wang JS et al., Proceeding, Selective Adsorption of Uranium(VI) on U(VI) Ion-Imprinted Chitosan Composite Magnetic Microsphers, 
1714-1717, (2011)
   

Peng RX

Zhao PN et al., Determination of glyphosate in foodstuff by one novel chemiluminescence-molecular imprinting sensor.
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 78, (5), 1482-1486, (2011)
   

Peng S

Peng S et al., Enhanced cellular uptake and tumor penetration of nanoparticles by imprinting the "hidden" part of membrane receptors for targeted drug delivery.
Chemical Communications, 53, (81), 11114-11117, (2017)
   

Xiang HY et al., High-capacity hollow porous dummy molecular imprinted polymers using ionic liquid as functional monomer for selective recognition of salicylic acid.
Journal of Pharmaceutical and Biomedical Analysis, 133, 75-81, (2017)
   

Peng S et al., Preparation of hydrophilic, magnetic molecularly imprinted resins of chlorogenic acid and evaluation of its solid-phase extraction performance.
Chinese Journal of Chromatography, 37, (3), 293-298, (2019)
   

Peng SC

Guan QJ et al., Determination of methamidophos in spiked ginger using molecularly imprinted technique.
Journal of Food Safety and Quality, 9, (10), 2356-2361, (2018)
   

Peng SH

Peng SH et al., Analysis of imidacloprid residues in mango, cowpea and water samples based on portable molecular imprinting sensors.
PLoS ONE, 16, (9), Article_e0257042-(2021)
   

Peng SH et al., Smartphone-based molecularly imprinted sensors for rapid detection of thiamethoxam residues and applications.
PLoS ONE, 16, (11), Article_e0258508-(2021)
   

Peng SW

Peng SW et al., Study on Adsorbing Properties and Kinetics of Co~(2+) Imprinting Chitosan Chelated Resins.
Guangzhou Chemical Industry, 34, (6), 1-3, (2006)
   

Peng T

Peng T et al., Molecular Imprinting and Its Application to Trace Analysis.
Chinese Journal of Pesticide Science, 3, (4), 1-14, (2001)
   

Du XY et al., Preparation and binding characteristics of molecularly imprinted polymers for sarafloxacin.
Chinese Journal of Analytical Chemistry, 31, (6), 720-722, (2003)
   

Zhang LL et al., Application of molecular imprinting technique in medicine and chemical engineering.
Chemical Engineer, 20, (12), 48-50, (2004)
   

Du XY et al., Anti-tylosin molecularly imprinted polymers and its application to cleanup of tylosin in bovine plasma samples.
Chinese Journal of Veterinary Medicine, 43, (9), 87-89, (2007)
   

Peng W

Banerji S et al., Proceeding, Molecularly imprinted polymerization based surface plasmon resonance sensing for glucose detection in human urine, 
Cullum BM, Carter JC (Eds.), U235-U245, (2006)
   

Banerji S et al., Proceeding, Chemically responsive hydrogel with nanoparticle enhanced detection for small biomolecules, 
Cullum BM, Porterfield DM, Booksh KS (Eds.), Art. No. 76740A, (2010)
   

Wang J et al., Glucose detection with surface plasmon resonance spectroscopy and molecularly imprinted hydrogel coatings.
Talanta, 86, (1), 133-141, (2011)
   

Peng W et al., Amino-functionalized adsorbent prepared by means of Cu(II) imprinted method and its selective removal of copper from aqueous solutions.
Journal of Hazardous Materials, 294, 9-16, (2015)
   

Zhang XN et al., The synthesis of temperature-sensitive molecularly imprinted film on support beads and its application for bovine serum albumin separation.
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 504, 367-375, (2016)
   

Zhu XH et al., Halloysite-based dopamine-imprinted polymer for selective protein capture.
Journal of Separation Science, 39, (12), 2431-2437, (2016)
   

Peng XH

Jiao FP et al., Study on Process of Thermodynamics for Chiral Separation of Naproxen in Molecular Imprinting.
Materials Review, 19, (8), 114-116, (2005)
   

Lu S et al., Selective Nitration of Toluene on Molecular Imprinted Polymers.
Jiangsu Chemical Industry, 33, (z1), 111-112, (2005)
   

Dong W et al., Synthesis of molecularly imprinted polymers and their enzyme-mimicking catalysis.
Journal of Nanjing University of Science and Technology, 30, (3), 361-365, (2006)
   

Mao XA et al., Recent Progress in Protein Imprinting Technology.
Recent Patents on Nanotechnology, 4, (2), 85-99, (2010)
   

Peng XJ

Liu LK et al., Artificial Antibody with Site-Enhanced Multivalent Aptamers for Specific Capture of Circulating Tumor Cells.
Analytical Chemistry, 91, (4), 2591-2594, (2019)
   

Wubulikasimu M et al., Synthesis of fluorescent drug molecules for competitive binding assay based on molecularly imprinted polymers.
RSC Advances, 9, (12), 6779-6784, (2019)
   

Peng XN

Liu BJ et al., Biosorption of lead from aqueous solutions by ion-imprinted tetraethylenepentamine modified chitosan beads.
International Journal of Biological Macromolecules, 86, 562-569, (2016)
   

Peng XS

Liu YR et al., A novel electrochemical sensor based on a molecularly imprinted polymer for the determination of epigallocatechin gallate.
Food Chemistry, 221, 1128-1134, (2017)
   

Peng XX

Chi D et al., Application of Molecular Imprinting Membrane to Separating Active Components in Chinese Materia Medica.
Guangming Journal of Chinese Medicine, 24, (3), 571-573, (2009)
   

Peng XY

Li H et al., Preparation and adsorption behavior of berberine hydrochloride imprinted polymers by using silica gel as sacrificed support material.
Applied Surface Science, 258, (10), 4314-4321, (2012)
   

Li H et al., Preparation and evaluation of berberine-Cl imprinted polymers by using silica-gel as sacrificed materials.
Journal of Functional Materials, 43, (6), 684-687, (2012)
   

Sun FX et al., Recent advances and progress in the detection of bisphenol A.
Analytical and Bioanalytical Chemistry, 408, (25), 6913-6927, (2016)
   

Li PF et al., Preparation and evaluation of paclitaxel-imprinted polymers with a rosin-based crosslinker as the stationary phase in high-performance liquid chromatography.
Journal of Chromatography A, 1502, 30-37, (2017)
   

Peng Y

Jin Y et al., Study on Sensors Based on Molecular Imprinting Polymers.
Chinese Polymer Bulletin, (6), 52-56, (2007)
   

Peng Y et al., Polymer sorbents used for solid phase extraction.
Polymer Materials Science and Engineering, 23, (4), 1-5, (2007)
   

Jiang M et al., Preparation of Mono-disperse Bisphenol A Imprinted Polymer Microspheres and Their Chromatographic Properties.
Chinese Journal of Analytical Chemistry, 36, (8), 1089-1092, (2008)
   

Jin Y et al., Narrowly dispersed molecularly imprinted microspheres prepared by a modified precipitation polymerization method.
Analytica Chimica Acta, 612, (1), 105-113, (2008)
   

Lin Y et al., Removal of phenolic estrogen pollutants from different sources of water using molecularly imprinted polymeric microspheres.
Environmental Pollution, 153, (2), 483-491, (2008)
   

Jiang M et al., Selective molecularly imprinted stationary phases for Bisphenol A analysis prepared by modified precipitation polymerization.
Journal of Separation Science, 32, (19), 3265-3273A, (2009)
   

Zhai CX et al., Molecularly imprinted layer-coated silica nanoparticles toward highly selective separation of active diosgenin from Dioscorea nipponica Makino.
Journal of Chromatography A, 1216, (12), 2254-2262, (2009)
   

Chen LN et al., Highly efficient and selective enrichment of puerarin from Radix Puerariae by molecularly imprinted solid-phase extraction.
Separation and Purification Technology, 71, (3), 324-330, (2010)
   

Peng Y et al., Molecularly imprinted polymer layer-coated silica nanoparticles toward dispersive solid-phase extraction of trace sulfonylurea herbicides from soil and crop samples.
Analytica Chimica Acta, 674, (2), 190-200, (2010)
   

Qu LJ et al., Quartz Crystal Microbalance for Determination of Parathion with Molecularly Imprinted Polymers as Recognition Elements.
Analysis and Testing Technology and Instruments, 16, (1), 11-16, (2010)
   

Yin XJ et al., Studies on preparation and performances of analogue of ethinylestradiol molecularly imprinted polymers.
Chemical Research and Application, 22, (1), 73-77, (2010)
   

Liu Z et al., Preparation and affinity assessment of parathion molecularly imprinted polymers.
Polymer Materials Science and Engineering, 27, (3), 83-86+91, (2011)
   

Dong JW et al., Surface plasmon resonance sensor for profenofos detection using molecularly imprinted thin film as recognition element.
Food Control, 25, (2), 543-549, (2012)
   

Dong JW et al., A novel polymerization of ultrathin sensitive imprinted film on surface plasmon resonance sensor.
Analyst, 137, (19), 4571-4576, (2012)
   

Gao N et al., Development of molecularly imprinted polymer films used for detection of profenofos based on a quartz crystal microbalance sensor.
Analyst, 137, (5), 1252-1258, (2012)
   

Jia XJ et al., Rational design of core-shell molecularly imprinted polymer based on computational simulation and Doehlert experimental optimization: application to the separation of tanshinone IIA from <i>Salvia miltiorrhiza</i> Bunge.
Analytical and Bioanalytical Chemistry, 403, (9), 2691-2703, (2012)
   

Luo J et al., Molecularly imprinted layer-coated monodisperse spherical silica microparticles toward affinity-enrichment of isoflavonoid glycosides from Radix puerariae.
Analyst, 137, (12), 2891-2902, (2012)
   

Peng Y et al., Book chapter, Macromolecule-Imprinted Polymers: Antibody/Receptor Mimics for Protein Recognition and Catalysis, 
In: Biomedical Nanosensors, Irudayaraj JM (Ed.) Taylor & Francis: Ch. 2, (2012)
   

Xie Y et al., An efficient hybrid design to prepare highly dense imprinted layer-coated silica particles for selective uptake of trace metsulfuron-methyl from complicated matrices.
RSC Advances, 2, (1), 273-283, (2012)
   

Zhou CH et al., Molecularly imprinted photonic polymer as an optical sensor to detect chloramphenicol.
Analyst, 137, (19), 4469-4474, (2012)
   

Liu J et al., Synthesis and application of ion-imprinted polymer particles for solid-phase extraction and determination of trace scandium by ICP-MS in different matrices.
Analytical Methods, 5, (7), 1811-1817, (2013)
   

Peng Y, A novel sensor for uric acid based on an electropolymerization technique.
American Laboratory, 45, (8), (2013)
   

Sai N et al., An imprinted crystalline colloidal array chemical-sensing material for detection of trace diethylstilbestrol.
Analyst, 138, (9), 2720-2728, (2013)
   

Zhao JW et al., Molecularly imprinted layer-coated silica nanoparticle sensors with guest-induced fluorescence enhancement: theoretical prediction and experimental observation.
Analytical Methods, 5, (12), 3009-3015, (2013)
   

Peng Y et al., Trifluorosilane induced structural transitions in [beta]-lactoglobulin in sol and gel.
Colloids and Surfaces B: Biointerfaces, 119, 6-13, (2014)
   

Wang P et al., Molecularly imprinted layer-coated hollow polysaccharide microcapsules toward gate-controlled release of water-soluble drugs.
RSC Advances, 4, (50), 26063-26073, (2014)
   

Zhang XY et al., A novel electrochemical sensor based on electropolymerized molecularly imprinted polymer and gold nanomaterials amplification for estradiol detection.
Sensors and Actuators B: Chemical, 200, 69-75, (2014)
   

Zhuang Y et al., Determination of Tetracyclines in Water and Milk by Solid-phase Microextraction Based on Tetracylines Molecularly Imprinted Polymers Coupled with HPLC.
Journal of Analytical Science, 30, (4), 451-456, (2014)
   

Jiang SY et al., Surface plasmon resonance sensor based on molecularly imprinted polymer film for detection of histamine.
Sensors and Actuators B: Chemical, 221, 15-21, (2015)
   

Tian JH et al., A core-shell-structured molecularly imprinted polymer on upconverting nanoparticles for selective and sensitive fluorescence sensing of sulfamethazine.
Analyst, 140, (15), 5301-5307, (2015)
   

Bai JL et al., Ultrasensitive sensing of diethylstilbestrol based on AuNPs/MWCNTs-CS composites coupling with sol-gel molecularly imprinted polymer as a recognition element of an electrochemical sensor.
Sensors and Actuators B: Chemical, 238, 420-426, (2017)
   

Long ZR et al., Highly selective coextraction of rhodamine B and dibenzyl phthalate based on high-density dual-template imprinted shells on silica microparticles.
Journal of Separation Science, 40, (2), 506-513, (2017)
   

Wang Y et al., A label-free detection of diethylstilbestrol based on molecularly imprinted polymer-coated upconversion nanoparticles obtained by surface grafting.
RSC Advances, 7, (36), 22215-22221, (2017)
   

Zhang XH et al., Novel Biomimic Crystalline Colloidal Array for Fast Detection of Trace Parathion.
ACS Sensors, 2, (7), 1013-1019, (2017)
   

Peng YF

Wang YB et al., A fluorometric sandwich biosensor based on rationally imprinted magnetic particles and aptamer modified carbon dots for the detection of tropomyosin in seafood products.
Food Control, 132, Article108552-(2022)
   

Peng YX

Liu XY et al., Fabrication of temperature-sensitive imprinted polymer hydrogel.
Macromolecular Bioscience, 4, (4), 412-415, (2004)
   

Liu XY et al., Design of temperature sensitive imprinted polymer hydrogels based on multiple-point hydrogen bonding.
Macromolecular Bioscience, 4, (7), 680-684, (2004)
   

Wang XB et al., Magnetic Molecularly Imprinted Polymer Particles Synthesized by Suspension Polymerization in Silicone Oil.
Macromolecular Rapid Communications, 27, (14), 1180-1184, (2006)
   

Wang XB et al., Synthesis of molecularly imprinted polymer particles by suspension polymerization in silicon oil.
Chinese Chemical Letters, 17, (9), 1243-1246, (2006)
   

Wang XB et al., Highly selective magnetic polymer particles via molecular imprinting.
Korean Journal of Chemical Engineering, 32, (11), 2355-2360, (2015)
   

Jia Q et al., Selective recognition and separation of luteolin based on the molecular imprinted hollow SnO2 and boronate affinity.
Chemical Engineering Journal, 342, 293-303, (2018)
   

Peng YY

Jin GY et al., Novel superparamagnetic core-shell molecular imprinting microspheres towards high selective sensing.
Analyst, 133, (10), 1367-1372, (2008)
   

Peng YY, Determination of Caffeine Using an Electrochemical Sensor Based on the Electropolymerized Molecularly Imprinted Film on a Multi-walled Carbon Nanotube Modified Glassy Carbon Electrode.
Journal of Instrumental Analysis, 32, (12), 1427-1432, (2013)
   

Peng YY et al., An electrochemical sensor for paracetamol based on an electropolymerized molecularly imprinted o-phenylenediamine film on a multi-walled carbon nanotube modified glassy carbon electrode.
Analytical Methods, 6, (15), 5673-5681, (2014)
   

Peng YY et al., Recent Innovations of Molecularly Imprinted Electrochemical Sensors Based on Electropolymerization Technique.
Current Analytical Chemistry, 11, (4), 307-317, (2015)
   

Peng YY et al., Selective Determination of Bisphenol A Based on Molecularly Imprinted Poly(ortho-phenylenediamine) /Multi- walled Carbon Nanotubes Composite Film.
Current Analytical Chemistry, 12, (5), 431-438, (2016)
   

Peng ZC

Liu Y et al., Preparation of molecularly imprinted polymeric microspheres based on distillation-precipitation polymerization for an ultrasensitive electrochemical sensor.
Analyst, 142, (7), 1091-1098, (2017)
   

Zhang JJ et al., Voltammetric lidocaine sensor by using a glassy carbon electrode modified with porous carbon prepared from a MOF, and with a molecularly imprinted polymer.
Microchimica Acta, 185, (1), ArticleNo78-(2018)
   

Hu Y et al., A ratiometric electrochemiluminescence sensing platform for robust ascorbic acid analysis based on a molecularly imprinted polymer modified bipolar electrode.
Biosensors and Bioelectronics, 167, Article112490-(2020)
   

Peng ZL

Zhou YQ et al., Polymers in Carbon Dots: A Review.
Polymers, 9, (2), ArticleNo67-(2017)
   

Peng ZW

Wang RZ et al., Selective removal of BPA from aqueous solution using molecularly imprinted polymers based on magnetic graphene oxide.
RSC Advances, 6, (108), 106201-106210, (2016)
   

Huang DL et al., Fabrication of water-compatible molecularly imprinted polymer based on [beta]-cyclodextrin modified magnetic chitosan and its application for selective removal of bisphenol A from aqueous solution.
Journal of the Taiwan Institute of Chemical Engineers, 77, 113-121, (2017)
   

Pengqi G

Guoning C et al., Preparation of molecularly imprinted polymers and application in a biomimetic biotin-avidin-ELISA for the detection of bovine serum albumin.
Talanta, 198, 55-62, (2019)
   

Penido RG

Martínez Saavedra LN et al., Molecularly imprinted polymers for selective adsorption of quinoline: theoretical and experimental studies.
RSC Advances, 8, (50), 28775-28786, (2018)
   

Penn L

Sha X et al., Molecularly imprinted polymer, nanoparticles, and the quartz crystal microbalance in combination evaluate bisphenol A in water.
Abstracts of Papers of the American Chemical Society, 246, (ANYL), 26-(2013)
   

Pennadam S

Cunliffe D et al., Synthetic and biological polymers - merging the interface.
European Polymer Journal, 40, (1), 5-25, (2004)
   

Pennetta A

Di Masi S et al., Sensor based on electrosynthesised imprinted polymeric film for rapid and trace detection of copper(II) ions.
Sensors and Actuators B: Chemical, 307, Article127648-(2020)
   

Di Masi S et al., Corrigendum to "Sensor based on electrosynthesised imprinted polymeric film for rapid and trace detection of copper(II) ions" [Sens. Actuators, B 307 (2020) 127648].
Sensors and Actuators B: Chemical, 311, Article127910-(2020)
   

Pennycook SJ

Dai S et al., Hierarchically imprinted sorbents for the separation of metal ions.
Journal of the American Chemical Society, 122, (5), 992-993, (2000)
   

Peoples MC

Shah KA et al., Microfluidic direct injection method for analysis of urinary 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanol (NNAL) using molecularly imprinted polymers coupled on-line with LC-MS/MS.
Journal of Pharmaceutical and Biomedical Analysis, 54, (2), 368-378, (2011)
   

Pepalla R

Dhruv H et al., Protein insertion and patterning of PEG-bearing Langmuir monolayers.
Biotechnology Progress, 22, (1), 150-155, (2006)
   

Pepe A

Carbone ME et al., Interactions between elastin-like peptides and an insulating poly(ortho-aminophenol) membrane investigated by AFM and XPS.
Analytical and Bioanalytical Chemistry, 410, (20), 4925-4941, (2018)
   

Peppas N

Culver HR et al., Correction to "Protein-Imprinted Polymers: The Shape of Things to Come?".
Chemistry of Materials, 30, (17), 6207-6207, (2018)
   

Peppas NA

Peppas NA et al., Poly(ethylene glycol)-containing hydrogels in drug delivery.
Journal of Controlled Release, 62, (1-2), 81-87, (1999)
   

Oral E et al., Molecular imprinting in biological systems.
Stp Pharma Sciences, 10, (4), 261-267, (2000)
   

Bures P et al., Surface modifications and molecular imprinting of polymers in medical and pharmaceutical applications.
Journal of Controlled Release, 72, (1-3), 25-33, (2001)
   

Oral E et al., Macroscopic and microscopic investigations of 2-hydroxyethyl methacrylate based molecularly imprinted networks.
Abstracts of Papers of the American Chemical Society, 222, (OLY), 401-401, (2001)
   

Byrne ME et al., Book chapter, Micropatterning Biomimetic Materials for Bioadhesion and Drug Delivery, 
In: Biomimetic Materials and Design: Interactive Biointerfacial Strategies, Tissue Engineering, and Targeted Drug Delivery, Dillow AK, Lowman AM (Eds.) Marcel Dekker: New York, (2002)
   

Byrne ME et al., Molecular imprinting within hydrogels.
Advanced Drug Delivery Reviews, 54, (1), 149-161, (2002)
   

Byrne ME et al., Networks for recognition of biomolecules: Molecular imprinting and micropatterning poly(ethylene glycol)-containing films.
Polymers for Advanced Technologies, 13, (10-12), 798-816, (2002)
   

Oral E et al., Molecular imprinting with small molecules: effects on polymerization, material and imprinting properties.
Polymer Preprints, 43, (2), 393-394, (2002)
   

Oral E et al., Molecular imprinting with small molecules: Effects on polymerization and imprinted properties.
Abstracts of Papers of the American Chemical Society, 224, (OLY), 528-528, (2002)
   

Peppas NA et al., Polymers and gels as molecular recognition agents.
Pharmaceutical Research, 19, (5), 578-587, (2002)
   

Langer R et al., Advances in biomaterials, drug delivery, and bionanotechnology.
AIChE Journal, 49, (12), 2990-3006, (2003)
   

Peppas NA et al., New biomaterials for intelligent biosensing, recognitive drug delivery and therapeutics.
B. T. Gattefossé, (96), 25-37, (2003)
   

Henthorn DB et al., Book chapter, Molecular simulations of recognitive polymer networks prepared by biomimetic configurational imprinting as responsive biomaterials, 
In: Molecularly Imprinted Materials-2003, Kofinas P, Sellergren B, Roberts MJ (Eds.) Materials Research Society: Warrendale, Ch. 2, 7-15, (2004)
   

Oral E et al., Dynamic studies of molecular imprinting polymerizations.
Polymer, 45, (18), 6163-6173, (2004)
   

Oral E et al., Responsive and recognitive hydrogels using star polymers.
Journal of Biomedical Materials Research Part A, 68A, (3), 439-447, (2004)
   

Spizzirri UG et al., Structural analysis and diffusional behavior of molecularly imprinted polymer networks for cholesterol recognition.
Chemistry of Materials, 17, (26), 6719-6727, (2005)
   

Venkatesh S et al., Applications of biomimetic systems in drug delivery.
Expert Opinion on Drug Delivery, 2, (6), 1085-1096, (2005)
   

Hilt JZ et al., Microfabrication of Intelligent Biomimetic Networks for Recognition of D-Glucose.
Chemistry of Materials, 18, (25), 5869-5875, (2006)
   

Oral E et al., Hydrophilic molecularly imprinted poly(hydroxyethyl-methacrylate) polymers.
Journal of Biomedical Materials Research Part A, 78A, (1), 205-210, (2006)
   

Peppas NA, Intelligent biomaterials as pharmaceutical carriers in microfabricated and nanoscale devices.
MRS Bulletin, 31, (11), 888-893, (2006)
   

Bodugoz H et al., Glucose recognition capabilities of hydroxyethyl methacrylate-based hydrogels containing poly(ethylene glycol) chains.
Journal of Applied Polymer Science, 103, (1), 432-441, (2007)
   

Henthorn DB et al., Molecular Simulations of Recognitive Behavior of Molecularly Imprinted Intelligent Polymeric Networks.
Industrial & Engineering Chemistry Research, 46, (19), 6084-6091, (2007)
   

Bayer CL et al., Advances in recognitive, conductive and responsive delivery systems.
Journal of Controlled Release, 132, (3), 216-221, (2008)
   

Bergmann NM et al., Configurational Biomimetic Imprinting for Protein Recognition: Structural Characteristics of Recognitive Hydrogels.
Industrial & Engineering Chemistry Research, 47, (23), 9099-9107, (2008)
   

Bergmann NM et al., Molecularly imprinted polymers with specific recognition for macromolecules and proteins.
Progress in Polymer Science, 33, (3), 271-288, (2008)
   

Byrne ME et al., Recognitive biomimetic networks with moiety imprinting for intelligent drug delivery.
Journal of Biomedical Materials Research Part A, 84A, (1), 137-147, (2008)
   

Caldorera-Moore M et al., Micro- and nanotechnologies for intelligent and responsive biomaterial-based medical systems.
Advanced Drug Delivery Reviews, 61, (15), 1391-1401, (2009)
   

Kryscio DR et al., Mimicking biological delivery through feedback-controlled drug release systems based on molecular imprinting.
AIChE Journal, 55, (6), 1311-1324, (2009)
   

Lauten EH et al., Intelligent drug release using molecular imprinting methods. Recognitive systems for angiotensin II.
Journal of Drug Delivery Science and Technology, 19, (6), 391-399, (2009)
   

Herrero EP et al., Protein Imprinting by Means of Alginate-Based Polymer Microcapsules.
Industrial & Engineering Chemistry Research, 49, (20), 9811-9814, (2010)
   

Khurshid SS et al., Optimization of molecularly imprinted polymers of serotonin for biomaterial applications.
Journal of Biomaterials Science-Polymer Edition, 22, (1-3), 343-362, (2011)
   

Kryscio DR et al., Molecular Docking Simulations for Macromolecularly Imprinted Polymers.
Industrial & Engineering Chemistry Research, 50, (24), 13877-13884, (2011)
   

Kryscio DR et al., Conformational studies of common protein templates in macromolecularly imprinted polymers.
Biomedical Microdevices, 14, (4), 679-687, (2012)
   

Kryscio DR et al., Surface imprinted thin polymer film systems with selective recognition for bovine serum albumin.
Analytica Chimica Acta, 718, (1), 109-115, (2012)
   

Kryscio DR et al., Critical review and perspective of macromolecularly imprinted polymers.
Acta Biomaterialia, 8, (2), 461-473, (2012)
   

Kryscio DR et al., Protein Conformational Studies for Macromolecularly Imprinted Polymers.
Macromolecular Bioscience, 12, (8), 1137-1144, (2012)
   

Culver HR et al., Intelligent recognitive systems in nanomedicine.
Current Opinion in Chemical Engineering, 4, 105-113, (2014)
   

Koetting MC et al., Stimulus-responsive hydrogels: Theory, modern advances, and applications.
Materials Science and Engineering: R: Reports, 93, 1-49, (2015)
   

Culver HR et al., A Closer Look at the Impact of Molecular Imprinting on Adsorption Capacity and Selectivity for Protein Templates.
Biomacromolecules, 17, (12), 4045-4053, (2016)
   

Peppas NA et al., The challenge to improve the response of biomaterials to the physiological environment.
Regenerative Biomaterials, 3, (2), 67-71, (2016)
   

Clegg JR et al., Student award for outstanding research winner in the Ph.D. category for the 2017 society for biomaterials annual meeting and exposition, april 5-8, 2017, Minneapolis, Minnesota: Characterization of protein interactions with molecularly imprinted hydrogels that possess engineered affinity for high isoelectric point biomarkers.
Journal of Biomedical Materials Research Part A, 105, (6), 1565-1574, (2017)
   

Clegg JR et al., Vision for Functionally Decorated and Molecularly Imprinted Polymers in Regenerative Engineering.
Regenerative Engineering and Translational Medicine, 3, (3), 166-175, (2017)
   

Culver HR et al., Protein-Imprinted Polymers: The Shape of Things to Come?
Chemistry of Materials, 29, (14), 5753-5761, (2017)
   

Culver HR et al., Analyte-Responsive Hydrogels: Intelligent Materials for Biosensing and Drug Delivery.
Accounts of Chemical Research, 50, (2), 170-178, (2017)
   

Neves MI et al., Molecularly imprinted intelligent scaffolds for tissue engineering applications.
Tissue Engineering Part B: Reviews, 23, (1), 27-43, (2017)
   

Clegg JR et al., Correction to: Vision for Functionally Decorated and Molecularly Imprinted Polymers in Regenerative Engineering.
Regenerative Engineering and Translational Medicine, 5, (4), 450-450, (2019)
   

Teixeira SPB et al., Epitope-imprinted polymers: Design principles of synthetic binding partners for natural biomacromolecules.
Science Advances, 7, (44), Article_eabi9884-(2021)
   

Percival CJ

Percival CJ et al., Molecular-imprinted, polymer-coated quartz crystal microbalances for the detection of terpenes.
Analytical Chemistry, 73, (17), 4225-4228, (2001)
   

Percival CJ et al., Molecular imprinted polymer coated QCM for the detection of nandrolone.
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Stanley S et al., Enantioselective detection of L-serine.
Sensors and Actuators B: Chemical, 89, (1-2), 103-106, (2003)
   

Stanley S et al., Detection of polycyclic aromatic hydrocarbons using quartz crystal microbalances.
Analytical Chemistry, 75, (7), 1573-1577, (2003)
   

Perea E

Ventura S et al., Selective Recovery of Metals from Geothermal Brines.
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Pereira AC

Coelho MKL et al., Development and Application of Electrochemical Sensor Based on Molecularly Imprinted Polymer and Carbon Nanotubes for the Determination of Carvedilol.
Chemosensors, 4, (4), ArticleNo22-(2016)
   

da Silva RCS et al., Development of pipette tip-based on molecularly imprinted polymer micro-solid phase extraction for selective enantioselective determination of (-)-(2S, 4R) and (+)-(2R, 4S) ketoconazole in human urine samples prior to HPLC-DAD.
Analytical Methods, 8, (20), 4075-4085, (2016)
   

de Oliveira HL et al., Molecularly imprinted pipette-tip solid phase extraction for selective determination of fluoroquinolones in human urine using HPLC-DAD.
Journal of Chromatography B, 1033-1034, 27-39, (2016)
   

dos Santos Moretti E et al., A nanocomposite based on multi-walled carbon nanotubes grafted by molecularly imprinted poly(methacrylic acid-hemin) as a peroxidase-like catalyst for biomimetic sensing of acetaminophen.
RSC Advances, 6, (34), 28751-28760, (2016)
   

Braga GB et al., Total Determination of Estrogenic Phenolic Compounds in River Water Using a Sensor Based on Reduced Graphene Oxide and Molecularly Imprinted Polymer.
Electroanalysis, 30, (9), 2176-2184, (2018)
   

Kuceki M et al., Selective and sensitive voltammetric determination of folic acid using graphite/restricted access molecularly imprinted poly(methacrylic acid)/SiO2 composite.
Journal of Electroanalytical Chemistry, 818, 223-230, (2018)
   

Anacleto S et al., Assessment of the Performance of Solid Phase Extraction Based on Pipette Tip Employing a Hybrid Molecularly Imprinted Polymer as an Adsorbent for Enantioselective Determination of Albendazole Sulfoxide.
Journal of Chromatographic Science, 57, (7), 671-678, (2019)
   

Pereira AC et al., Synthesis and characterization of molecularly imprinted polymer for ethinylestradiol.
Chemical Papers, 73, (1), 141-149, (2019)
   

Pereira AV

Pereira AV et al., Do voltammetry electrodes modified with MIPs really work? The role of large molecules: folic acid as a probe.
Analytical Methods, 6, (17), 6658-6667, (2014)
   

Pereira C

Ornelas M et al., Naproxen-imprinted xerogels in the micro- and nanospherical forms by emulsion technique.
Journal of Chromatography A, 1422, 43-52, (2015)
   

Ornelas M et al., Acylated-naproxen as the surface-active template in the preparation of micro- and nanospherical imprinted xerogels by emulsion techniques.
Journal of Chromatography A, 1437, 107-115, (2016)
   

Pereira CM

Rebelo TSCR et al., Protein imprinted materials designed with charged binding sites on screen-printed electrode for microseminoprotein-beta determination in biological samples.
Sensors and Actuators B: Chemical, 223, 846-852, (2016)
   

Rebelo TSCR et al., Protein Imprinted Material electrochemical sensor for determination of Annexin A3 in biological samples.
Electrochimica Acta, 190, 887-893, (2016)
   

Ferreira VRA et al., Preparation and evaluation of Pb(II)-imprinted fucoidan-based sorbents.
Reactive and Functional Polymers, 115, 53-62, (2017)
   

Ribeiro JA et al., Electrochemical detection of cardiac biomarker myoglobin using polyphenol as imprinted polymer receptor.
Analytica Chimica Acta, 981, 41-52, (2017)
   

Ferreira VRA et al., Molecularly imprinted polymers for enhanced impregnation and controlled release of l-tyrosine.
Reactive and Functional Polymers, 131, 283-292, (2018)
   

Ferreira VRA et al., Cationic imprinting of Pb(II) within composite networks based on bovine or fish chondroitin sulfate.
Journal of Molecular Recognition, 31, (3), ArticleNoe2614-(2018)
   

Ribeiro JA et al., Disposable electrochemical detection of breast cancer tumour marker CA 15-3 using poly(Toluidine Blue) as imprinted polymer receptor.
Biosensors and Bioelectronics, 109, 246-254, (2018)
   

Rebelo TSCR et al., Molecularly imprinted polymer SPE sensor for analysis of CA-125 on serum.
Analytica Chimica Acta, 1082, 126-135, (2019)
   

Pereira E

Heitzmann M et al., Complexation of poly(pyrrole-EDTA like) film modified electrodes: Application to metal cations electroanalysis.
Electrochimica Acta, 52, (9), 3082-3087, (2007)
   

Pereira E et al., Complexing Polymer Films in The Preparation of Modified Electrodes for Detection of Metal Ions.
Macromolecular Symposia, 304, (1), 115-125, (2011)
   

Pereira E et al., Preparation of molecularly imprinted polymers for diphenylamine removal from organic gunshot residues.
Journal of the Chilean Chemical Society, 59, (4), 2731-2736, (2014)
   

Manzo V et al., A molecularly imprinted polymer as the sorptive phase immobilized in a rotating disk extraction device for the determination of diclofenac and mefenamic acid in wastewater.
Analytica Chimica Acta, 889, 130-137, (2015)
   

Cáceres C et al., Does size matter? Study of performance of pseudo-ELISAs based on molecularly imprinted polymer nanoparticles prepared for analytes of different sizes.
Analyst, 141, (4), 1405-1412, (2016)
   

Garcia Y et al., Development of competitive 'pseudo'-ELISA assay for measurement of cocaine and its metabolites using molecularly imprinted polymer nanoparticles.
Analytical Methods, 9, (31), 4592-4598, (2017)
   

Cáceres C et al., Molecularly Imprinted Polymers for the Selective Extraction of Bisphenol A and Progesterone from Aqueous Media.
Polymers, 10, (6), ArticleNo679-(2018)
   

Garcia Y et al., Competitive pseudo-ELISA based on molecularly imprinted nanoparticles for microcystin-LR detection in water.
Pure And Applied Chemistry, 91, (10), 1593-1604, (2019)
   

Moczko E et al., Molecularly Imprinted Nanoparticles Assay (MINA) in Pseudo ELISA: An Alternative to Detect and Quantify Octopamine in Water and Human Urine Samples.
Polymers, 11, (9), ArticleNo1497-(2019)
   

Arias PG et al., Selective solid-phase extraction of organophosphorus pesticides and their oxon-derivatives from water samples using molecularly imprinted polymer followed by high-performance liquid chromatography with UV detection.
Journal of Chromatography A, 1626, Article461346-(2020)
   

Pereira ED

Quezada C et al., Molecularly imprinted nanoparticle-based assay (MINA): Potential application for the detection of the neurotoxin domoic acid.
Analytica Chimica Acta, 1181, Article338887-(2021)
   

García Y et al., A magnetic molecularly imprinted nanoparticle assay (MINA) for detection of pepsin.
Reactive and Functional Polymers, 170, Article105133-(2022)
   

Pereira GR

Ruela ALM et al., Molecularly imprinted polymers as nicotine transdermal delivery systems.
Chemical Engineering Journal, 248, 1-8, (2014)
   

Ruela ALM et al., Molecularly imprinted microparticles in lipid-based formulations for sustained release of donepezil.
European Journal of Pharmaceutical Sciences, 93, 114-122, (2016)
   

Ruela ALM et al., Adsorption and release of nicotine from imprinted particles synthesised by precipitation polymerisation: Optimising transdermal formulations.
European Polymer Journal, 100, 67-76, (2018)
   

Pereira I

Mendes TPP et al., Molecularly imprinted polymer-coated paper as a substrate for highly sensitive analysis using paper spray mass spectrometry: quantification of metabolites in urine.
Analytical Methods, 9, (43), 6117-6123, (2017)
   

Pereira I et al., Molecularly imprinted polymer (MIP) membrane assisted direct spray ionization mass spectrometry for agrochemicals screening in foodstuffs.
Talanta, 178, 507-514, (2018)
   

de Brito TP et al., Determining Methamphetamine in Urine by Molecularly Imprinted Polymer Assisted Paper Spray Ionization Mass Spectrometry.
Journal of the Brazilian Chemical Society, 32, (2), 269-276, (2021)
   

Pereira LA

Pereira LA et al., Molecularly imprinted solid-phase extraction for the determination of fenitrothion in tomatoes.
Analytical and Bioanalytical Chemistry, 393, (3), 1063-1072, (2009)
   

de Barros LA et al., A Novel Computational Approach for Development of Highly Selective Fenitrothion Imprinted Polymer: Theoretical Predictions and Experimental Validations.
Journal of the Brazilian Chemical Society, 25, (4), 619-628, (2014)
   

Pereira MC

Saavedra LNM et al., Thermodynamic study of a magnetic molecular imprinted polymer for removal of nitrogenous pollutant from gasoline.
Fuel, 210, 380-389, (2017)
   

Martínez Saavedra LN et al., Molecularly imprinted polymers for selective adsorption of quinoline: theoretical and experimental studies.
RSC Advances, 8, (50), 28775-28786, (2018)
   

Pereira MM

Balieiro AL et al., Adsorption process of molecularly imprinted silica for extraction of lactose from milk.
Brazilian Journal of Chemical Engineering, 33, (2), 361-372, (2016)
   

Pereira R

Justino CIL et al., Recent developments in recognition elements for chemical sensors and biosensors.
TrAC Trends in Analytical Chemistry, 68, 2-17, (2015)
   

Pereira TC

Beluomini MA et al., Electrochemical sensors based on molecularly imprinted polymer on nanostructured carbon materials: A review.
Journal of Electroanalytical Chemistry, 840, 343-366, (2019)
   

Pereira TC et al., Electrochemical sensing of lactate by using an electrode modified with molecularly imprinted polymers, reduced graphene oxide and gold nanoparticles.
Microchimica Acta, 186, (12), Article764-(2019)
   

Pereira TFD

da Silva ATM et al., Efficient molecularly imprinted polymer as a pipette-tip solid-phase sorbent for determination of carvedilol enantiomers in human urine.
Journal of Chromatography B, 1061, 399-410, (2017)
   

Pereira TFD et al., Carvedilol-Imprinted Polymer: Rational design and selectivity studies.
Journal of Molecular Structure, 1177, 101-106, (2019)
   

Pereiro R

Salinas-Castillo A et al., Iodinated molecularly imprinted polymer for room temperature phosphorescence optosensing of fluoranthene.
Chemical Communications, (25), 3224-3226, (2005)
   

Sánchez-Barragán I et al., Molecularly imprinted polymers based on iodinated monomers for selective room-temperature phosphorescence optosensing of fluoranthene in water.
Analytical Chemistry, 77, (21), 7005-7011, (2005)
   

Traviesa-Alvarez JM et al., Room temperature phosphorescence optosensing of benzo[a]pyrene in water using halogenated molecularly imprinted polymers.
Analyst, 132, (3), 218-223, (2007)
   

González J et al., Proceeding, Measurement of polycyclic aromatic hydrocarbons by using molecularly imprinted polymers, 
1194-1197, (2008)
   

Alvarez-Diaz A et al., Halogenated molecularly imprinted polymers for selective determination of carbaryl by phosphorescence measurements.
Analytical and Bioanalytical Chemistry, 394, (6), 1569-1576, (2009)
   

Álvarez A et al., Reusable phosphorescent probes based on molecularly imprinted polymers for the determination of propranolol in urine.
Sensors and Actuators B: Chemical, 168, (1), 370-375, (2012)
   

Perera R

Perera R et al., The binding of metal ions to molecularly-imprinted polymers.
Water Science And Technology, 75, (7), 1643-1650, (2017)
   

Perez G

Mascini M et al., Book chapter, Multiple Minima Hypersurfaces Procedures for Biomimetic Ligands Screening, 
In: Sensors and Microsystems, Neri G, Donato N, D'Amico A, Di Natale C (Eds.) Springer Netherlands: Ch. 65, 403-407, (2011)
   

Perez M

Concu R et al., Molecular Dynamics Simulations of Complex Mixtures Aimed at the Preparation of Naproxen-Imprinted Xerogels.
Journal of Chemical Information and Modeling, 54, (12), 3330-3343, (2014)
   

Perez M et al., Measurement artifacts identified in the UV-vis spectroscopic study of adduct formation within the context of molecular imprinting of naproxen.
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 153, 661-668, (2016)
   

Perez de Vargas Sansalvador I

Moczko E et al., Surface-modified multifunctional MIP nanoparticles.
Nanoscale, 5, (9), 3733-3741, (2013)
   

Perez de Vargas-Sansalvador IM

Perez de Vargas-Sansalvador IM et al., Book chapter, Synthesis of Monodisperse Polymeric Nano- and Microparticles and Their Application in Bioanalysis, 
In: Advances in Chemical Bioanalysis, Matysik FM (Ed.) Springer: Berlin, Heidelberg, 1-24, (2013)
   

Perez-Conde C

Turiel E et al., Assessment of the cross-reactivity and binding sites characterisation of a propazine-imprinted polymer using the Langmuir-Freundlich isotherm.
Analyst, 128, (2), 137-141, (2003)
   

Cacho C et al., Characterisation and quality assessment of binding sites on a propazine-imprinted polymer prepared by precipitation polymerisation.
Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 802, (2), 347-353, (2004)
   

Cacho C et al., Semi-covalent imprinted polymer using propazine methacrylate as template molecule for the clean-up of triazines in soil and vegetable samples.
Journal of Chromatography A, 1114, (2), 255-262, (2006)
   

Zamora O et al., Determination of benzimidazole fungicides in water samples by on-line MISPE–HPLC.
Analytical and Bioanalytical Chemistry, 393, (6), 1745-1753, (2009)
   

Perez-Gavilan A

Pawley JC et al., Studying the Drug Delivery Kinetics of a Nanoporous Matrix Using a MIP-Based Thermal Sensing Platform.
Polymers, 9, (11), ArticleNo560-(2017)
   

Perez-Puyana V

Perez-Puyana V et al., (Macro)Molecular Imprinting of Proteins on PCL Electrospun Scaffolds.
ACS Applied Materials & Interfaces, 13, (25), 29293-29302, (2021)
   

Pergament I

Green BS et al., Selective molecularly imprinted polymers for fluorophosphonate nerve gases: Proof of concept.
Abstracts of Papers of the American Chemical Society, 230, 623-POLY, (2005)
   

Pergament-Tzomik I

Green BS et al., Selective molecularly imprinted polymers for fluorophosphonate nerve gases – Proof of principle.
Polymer Preprints, 46, (2), 1209-1210, (2005)
   

Pergolizzi S

Alesci A et al., Extracts deriving from olive mill waste water and their effects on the liver of the goldfish Carassius auratus fed with hypercholesterolemic diet.
Natural Product Research, 28, (17), 1343-1349, (2014)
   

Perkel JM

Perkel JM, Pesticide monitoring with a quartz crystal microbalance.
Analytical Chemistry, 81, (3), 859-859, (2009)
   

Perko J

Werner M et al., Proceeding, P2BM.8 - Pickering Emulsion Polymerization of Polystyrene to Synthesize Bacteria Imprinted Polymer Beads for Pre- Concentration, 
699-700, (2018)
   

Perkons I

Zacs D et al., Determination of steroidal oestrogens in tap water samples using solid-phase extraction on a molecularly imprinted polymer sorbent and quantification with gas chromatography-mass spectrometry (GC-MS).
Environmental Monitoring and Assessment, 188, (7), ArticleNo433-(2016)
   

Pernelle C

Pardieu E et al., Molecularly imprinted conducting polymer based electrochemical sensor for detection of atrazine.
Analytica Chimica Acta, 649, (2), 236-245, (2009)
   

Lattach Y et al., Molecularly imprinted surface acoustic wave sensors: The synergy of electrochemical and gravimetric transductions in chemical recognition processes.
Electrochimica Acta, 73, (1), 36-44, (2012)
   

Pernites R

Pernites R et al., Electropolymerization molecularly imprinted polymer (E-MIP) SPR sensing of drug molecules: Pre-polymerization complexed terthiophene and carbazole electroactive monomers.
Biosensors and Bioelectronics, 26, (5), 2766-2771, (2011)
   

Pernites RB

Apodaca DC et al., Electropolymerized Molecularly Imprinted Polymer Films of a Bis-Terthiophene Dendron: Folic Acid Quartz Crystal Microbalance Sensing.
ACS Applied Materials & Interfaces, 3, (2), 191-203, (2010)
   

Pernites RB et al., Surface Plasmon Resonance (SPR) Detection of Theophylline via Electropolymerized Molecularly Imprinted Polythiophenes.
Macromolecules, 43, (23), 9724-9735, (2010)
   

Apodaca DC et al., Electropolymerized Molecularly Imprinted Polymer Film: EIS Sensing of Bisphenol A.
Macromolecules, 44, (17), 6669-6682, (2011)
   

Apodaca DC et al., Detection of 2, 4-Dinitrotoluene (DNT) as a Model System for Nitroaromatic Compounds via Molecularly Imprinted Short-Alkyl-Chain SAMs.
Langmuir, 27, (11), 6768-6779, (2011)
   

Dutta P et al., SPR Detection of Dopamine Using Cathodically Electropolymerized, Molecularly Imprinted Poly-p-aminostyrene Thin Films.
Macromolecular Chemistry And Physics, 212, (22), 2439-2451, (2011)
   

Pernites RB et al., Nanostructured, Molecularly Imprinted, and Template-Patterned Polythiophenes for Chiral Sensing and Differentiation.
Small, 8, (11), 1669-1674, (2012)
   

Vergara AV et al., QCM sensing of a chemical nerve agent analog via electropolymerized molecularly imprinted polythiophene films.
Journal of Polymer Science Part A: Polymer Chemistry, 50, (4), 675-685, (2012)
   

Tiu BDB et al., Detection of aspartame via microsphere-patterned and molecularly imprinted polymer arrays.
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 495, 149-158, (2016)
   

Vergara AV et al., Capacitive Detection of Morphine via Cathodically Electropolymerized, Molecularly Imprinted Poly(p-aminostyrene) Films.
Macromolecular Chemistry And Physics, 217, (16), 1810-1822, (2016)
   

Perollier C

Perollier C et al., Fast and Selective Purification of a Fluorous Radiotracer using Molecularly Imprinted Polymers.
Journal of Labelled Compounds & Radiopharmaceuticals, 54, S484-S484, (2011)
   

Perollier C et al., Fast and Selective Purification of a Fluorous Radiotracer using SPE based on Molecularly Imprinted Polymers.
European Journal of Nuclear Medicine and Molecular Imaging, 39, (Supplement 2), S378-S379, (2012)
   

Perollier C et al., New Purification Road of Three Fluorous Radiotracer FBA, EFB and SFB using SPE based on Molecularly Imprinted Polymers.
European Journal of Nuclear Medicine and Molecular Imaging, 40, (Supplement 2), S423-S423, (2013)
   

Perrett D

Davies MP et al., Approaches to the rational design of molecularly imprinted polymers.
Analytica Chimica Acta, 504, (1), 7-14, (2004)
   

Perri C

Cennamo N et al., Proceeding, An optical fiber intensity-based sensor configuration for the detection of PFOA in water, 
Article_ThE37, (2018)
   

Cennamo N et al., A Molecularly Imprinted Polymer on a Plasmonic Plastic Optical Fiber to Detect Perfluorinated Compounds in Water.
Sensors, 18, (6), ArticleNo1836-(2018)
   

Cennamo N et al., Proceeding, Water monitoring in smart cities exploiting plastic optical fibers and molecularly imprinted polymers. The case of PFBS detection, 
1-6, (2019)
   

Arcadio F et al., Bovine Serum Albumin Protein Detection by a Removable SPR Chip Combined with a Specific MIP Receptor.
Chemosensors, 9, (8), ArticleNo218-(2021)
   

Perrier S

Zhao YL et al., Book chapter, Reversible Addition-Fragmentation Chain Transfer Polymerization from Surfaces, 
In: Controlled Radical Polymerization at and from Solid Surfaces, Vana P (Ed.) 77-106, (2016)
   

Perrone L

Nicolucci C et al., A high selective and sensitive liquid chromatography-tandem mass spectrometry method for quantization of BPA urinary levels in children.
Analytical and Bioanalytical Chemistry, 405, (28), 9139-9148, (2013)
   

Perrot H

Agrisuelas J et al., Evaluation of the electrochemical anion recognition of NO3(-)-imprinted poly(Azure A) in NO3(-):Cl(-) mixed solutions by ac-electrogravimetry.
Electrochimica Acta, 194, 292-303, (2016)
   

Perrotta I

Parisi OI et al., Design and development of plastic antibodies against SARS-CoV-2 RBD based on molecularly imprinted polymers that inhibit in vitro virus infection.
Nanoscale, 13, (40), 16885-16899, (2021)
   

Perruchot C

Gam-Derouich S et al., Aryl diazonium salt surface chemistry and ATRP for the preparation of molecularly imprinted polymer grafts on gold substrates.
Surface And Interface Analysis, 42, (6-7), 1050-1056, (2010)
   

Persson NK

Björk P et al., Dynamics of complex formation between biological and luminescent conjugated polyelectrolytes - A surface plasmon resonance study.
Biosensors and Bioelectronics, 20, (9), 1764-1771, (2005)
   

Perz K

Kuras MJ et al., Synthesis, characterization and application of a novel zinc(II) ion-imprinted polymer.
Polymer Bulletin, 74, (12), 5029-5048, (2017)
   

Perçin I

Baydemir G et al., Molecularly imprinted composite cryogels for hemoglobin depletion from human blood.
Journal of Molecular Recognition, 27, (9), 528-536, (2014)
   

Perçin I et al., Microcontact Imprinted Plasmonic Nanosensors: Powerful Tools in the Detection of Salmonella paratyphi.
Sensors, 17, (6), ArticleNo1375-(2017)
   

Perçin I et al., Molecularly imprinted poly(N-isopropylacrylamide) thermosensitive based cryogel for immunoglobulin G purification.
Process Biochemistry, 80, 181-189, (2019)
   

Pesavento M

D’Agostino G et al., Potentiometric sensor for atrazine based on a molecular imprinted membrane.
Biosensors and Bioelectronics, 22, (1), 145-152, (2006)
   

Pesavento M et al., Molecularly Imprinted Polymer-Based Sensors for Amperometric Determination of Nonelectroactive Substances.
Electroanalysis, 21, (3-5), 604-611, (2009)
   

Alberti G et al., Beyond the synthesis of novel solid phases: Review on modelling of sorption phenomena.
Coordination Chemistry Reviews, 256, (1-2), 28-45, (2012)
   

Pesavento M et al., Ion Selective Electrode for Dopamine Based on a Molecularly Imprinted Polymer.
Electroanalysis, 24, (4), 813-824, (2012)
   

Cennamo N et al., Proceeding, Detection of trinitrotoluene based on SPR in molecularly imprinted polymer on plastic optical fiber, 
Jaroszewicz LR (Ed.), 879412, (2013)
   

Cennamo N et al., Sensors based on surface plasmon resonance in a plastic optical fiber for the detection of trinitrotoluene.
Sensors and Actuators B: Chemical, 188, 221-226, (2013)
   

Pesavento M et al., Voltammetric platform for detection of 2, 4, 6-trinitrotoluene based on a molecularly imprinted polymer.
Analytical and Bioanalytical Chemistry, 405, (11), 3559-3570, (2013)
   

Cennamo N et al., High selectivity and sensitivity sensor based on MIP and SPR in tapered plastic optical fibers for the detection of l-nicotine.
Sensors and Actuators B: Chemical, 191, 529-536, (2014)
   

Cennamo N et al., Combined Molecularly Imprinted Polymer and Surface Plasmon Resonance Transduction in Plastic Optical Fiber for Monitoring Oil-filled Power Transformers.
Procedia Engineering, 87, 532-535, (2014)
   

Pesavento M et al., Book chapter, Potentiometric Sensors Based on Molecular Imprinted Polymers, 
In: Sensors, Baldini F, D'Amico A, Di Natale C, Siciliano P, Seeber R, De Stefano L, Bizzarri R, Andò B (Eds.) Springer: New York, 141-144, (2014)
   

Pesavento M et al., Proceeding, A new approach for selective optical fiber sensors based on localized surface plasmon resonance of gold nanostars in molecularly imprinted polymer, 
71-75, (2014)
   

Cennamo N et al., Monitoring of Low Levels of Furfural in Power Transformer Oil with a Sensor System Based on a POF-MIP Platform.
Sensors, 15, (4), 8499-8511, (2015)
   

Cennamo N et al., Sensitive detection of 2, 4, 6-trinitrotoluene by tridimensional monitoring of molecularly imprinted polymer with optical fiber and five-branched gold nanostars.
Sensors and Actuators B: Chemical, 208, 291-298, (2015)
   

Cennamo N et al., Novel Optical Chemical Sensor Based on Molecularly Imprinted Polymer Inside a Trench Micro-machined in Double Plastic Optical Fiber.
Procedia Engineering, 168, 363-366, (2016)
   

Cennamo N et al., Proceeding, Surface plasmon resonance in a D-shaped plastic optical fibre: Influence of gold layer thickness in monitoring molecularly imprinted polymers, 
227-231, (2016)
   

Cennamo N et al., Markers Detection in Transformer Oil by Plasmonic Chemical Sensor System Based on POF and MIPs.
IEEE Sensors Journal, 16, (21), 7663-7670, (2016)
   

Cennamo N et al., SPR Chemosensors Based on D-Shaped POFs and MIPs: Investigation on Optimal Thickness of the Buffer Layer.
Proceedings, 1, (8), ArticleNo816-(2017)
   

Cennamo N et al., Intensity-based plastic optical fiber sensor with molecularly imprinted polymer sensitive layer.
Sensors and Actuators B: Chemical, 241, 534-540, (2017)
   

Pesavento M et al., Towards the development of cascaded surface plasmon resonance POF sensors exploiting gold films and synthetic recognition elements for detection of contaminants in transformer oil.
Sensing and Bio-Sensing Research, 13, 128-135, (2017)
   

Cennamo N et al., Proceeding, A novel chemical optical sensor based on molecularly imprinted polymer, optical fibers and inkjet printing technology, 
ArticleNo8409619, (2018)
   

Cennamo N et al., Book chapter, Chemical Sensors Based on Surface Plasmon Resonance in a Plastic Optical Fiber for Multianalyte Detection in Oil-Filled Power Transformer, 
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Sensors and Actuators B: Chemical, 308, Article127630-(2020)
   

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Vu VP et al., Possible detection of antibiotic residue using molecularly imprinted polyaniline-based sensor.
Vietnam Journal of Chemistry, 57, (3), 328-333, (2019)
   

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Do PT et al., A highly sensitive electrode modified with graphene, gold nanoparticles, and molecularly imprinted over-oxidized polypyrrole for electrochemical determination of dopamine.
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Dramou P et al., Development of novel amphiphilic magnetic molecularly imprinted polymers compatible with biological fluids for solid phase extraction and physicochemical behavior study.
Journal of Chromatography A, 1317, 110-120, (2013)
   

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Analytical Methods, 6, (12), 4421-4429, (2014)
   

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Microchimica Acta, 183, (10), 2677-2695, (2016)
   

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Journal of Chromatography A, 1317, 110-120, (2013)
   

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Electrochimica Acta, 56, (25), 9203-9208, (2011)
   

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Proceedings of the National Academy of Sciences of the United States of America, 108, (27), 11081-11086, (2011)
   

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Biomacromolecules, 13, (12), 3959-3965, (2012)
   

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Sensors and Actuators B: Chemical, 176, 190-197, (2013)
   

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Philip JYN et al., Preparation of Molecularly Imprinted Polymers Using Anacardic Acid Monomers Derived from Cashew Nut Shell Liquid.
Journal of Agricultural and Food Chemistry, 55, (22), 8870-8876, (2007)
   

Long YY et al., Insight into molecular imprinting in precipitation polymerization systems using solution NMR and dynamic light scattering.
Journal of Molecular Recognition, 24, (4), 619-630, (2011)
   

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Tanzania Journal of Science, 38, (3), 72-83, (2012)
   

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Philp D et al., Self-assembly in natural and unnatural systems.
Angewandte Chemie International Edition, 35, (11), 1155-1196, (1996)
   

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Phonklam K et al., A novel molecularly imprinted polymer PMB/MWCNTs sensor for highly-sensitive cardiac troponin T detection.
Sensors and Actuators B: Chemical, 308, Article127630-(2020)
   

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Polymer International, 55, (10), 1191-1198, (2006)
   

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Chattrairat K et al., Synthesis of kaolinite/magnetic molecularly imprinted polymers for solid phase extraction of chlorpyrifos.
Japanese Journal of Applied Physics, 58, (SD), Article_SDDG05-(2019)
   

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Journal of Metals, Materials and Minerals, 29, (1), 42-48, (2019)
   

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Korde BA et al., Nanoporous imprinted polymers (nanoMIPs) for controlled release of cancer drug.
Materials Science and Engineering: C, 99, 222-230, (2019)
   

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Chaipuang A et al., Synthesis of copper(II) ion-imprinted polymers via suspension polymerization.
Polymers for Advanced Technologies, 29, (12), 3134-3141, (2018)
   

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Polymers for Advanced Technologies, 29, (12), 3075-3084, (2018)
   

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Sa-nguanprang S et al., An optosensor based on a hybrid sensing probe of mesoporous carbon and quantum dots embedded in imprinted polymer for ultrasensitive detection of thiamphenicol in milk.
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 264, Article120324-(2022)
   

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Phutthawong N et al., Facile synthesis of magnetic molecularly imprinted polymers for caffeine via ultrasound-assisted precipitation polymerization.
Polymer Bulletin, 70, (2), 691-705, (2013)
   

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Journal of Applied Polymer Science, 128, (6), 3893-3899, (2013)
   

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Ma M et al., A disposable molecularly imprinted electrochemical sensor based on screen-printed electrode modified with ordered mesoporous carbon and gold nanoparticles for determination of ractopamine.
Journal of Electroanalytical Chemistry, 775, 171-178, (2016)
   

Guo W et al., A novel molecularly imprinted electrochemical sensor modified with carbon dots, chitosan, gold nanoparticles for the determination of patulin.
Biosensors and Bioelectronics, 98, 299-304, (2017)
   

de Dieu Habimana J et al., A class-specific artificial receptor-based on molecularly imprinted polymer-coated quantum dot centers for the detection of signaling molecules, N-acyl-homoserine lactones present in gram-negative bacteria.
Analytica Chimica Acta, 1031, 134-144, (2018)
   

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Journal of Solid State Electrochemistry, 23, (4), 1211-1220, (2019)
   

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Chen RF et al., Preparation and characterization of ionic liquid-based bovine serum albumin molecularly imprinted polymers on the surface of multiwall carbon nanotubes.
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Liu XJ et al., Synthesis of molecularly imprinted polymer by suspension polymerization for selective extraction of p-hydroxybenzoic acid from water.
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Cirillo G et al., Book chapter, Carbon Nanotubes – Imprinted Polymers: Hybrid Materials for Analytical Applications, 
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Journal of Applied Polymer Science, 130, (2), 829-834, (2013)
   

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Euterpio MA et al., Development and Validation of a Method for the Determination of (E)-Resveratrol and Related Phenolic Compounds in Beverages Using Molecularly Imprinted Solid Phase Extraction.
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Talanta, 161, 459-468, (2016)
   

Pichon V et al., Selective tools for the solid-phase extraction of Ochratoxin A from various complex samples: immunosorbents, oligosorbents, and molecularly imprinted polymers.
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Combes A et al., Synthesis and Characterization of Molecularly Imprinted Polymers for the Selective Extraction of Carbamazepine and Analogs from Human Urine Samples.
Chromatographia, 82, (1), 287-295, (2019)
   

Kadhirvel P et al., Development and application of water-compatible molecularly imprinted polymers for the selective extraction of carbamazepine from environmental waters.
Analytical and Bioanalytical Chemistry, 411, (8), 1525-1536, (2019)
   

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Journal of Chromatography A, 1626, Article461346-(2020)
   

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Analytical Chemistry, 92, (1), 16-33, (2020)
   

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Separations, 8, (12), ArticleNo237-(2021)
   

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Blasco C et al., Development of an Improved Method for Trace Analysis of Quinolones in Eggs of Laying Hens and Wildlife Species Using Molecularly Imprinted Polymers.
Journal of Agricultural and Food Chemistry, 60, (44), 11005-11014, (2012)
   

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Ayerdurai V et al., Selective Impedimetric Chemosensing of Carcinogenic Heterocyclic Aromatic Amine in Pork by dsDNA-Mimicking Molecularly Imprinted Polymer Film-Coated Electrodes.
Journal of Agricultural and Food Chemistry, 69, (48), 14689-14698, (2021)
   

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Huynh TP et al., Molecularly Imprinted Polymer for Recognition of 5-Fluorouracil by RNA-type Nucleobase Pairing.
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Lach P et al., Self-reporting molecularly imprinted polymer with the covalently immobilized ferrocene redox probe for selective electrochemical sensing of p-synephrine.
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Abbas Y et al., Molecularly Imprinted Polymer-carbon Nanotube based Cotinine Sensor.
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Pietrzyk A et al., Melamine Acoustic Chemosensor Based on Molecularly Imprinted Polymer Film.
Analytical Chemistry, 81, (24), 10061-10070, (2009)
   

Pietrzyk A et al., Selective Histamine Piezoelectric Chemosensor Using a Recognition Film of the Molecularly Imprinted Polymer of Bis(bithiophene) Derivatives.
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Analytical and Bioanalytical Chemistry, 405, (20), 6489-6496, (2013)
   

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Langmuir, 29, (31), 9891-9896, (2013)
   

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Analytical Methods, 5, (24), 6954-6959, (2013)
   

Piletska E et al., Rational design and development of affinity adsorbents for analytical and biopharmaceutical applications.
Journal of the Chinese Advanced Materials Society, 1, (3), 229-244, (2013)
   

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European Polymer Journal, 49, 100-105, (2013)
   

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Advanced Healthcare Materials, 3, (9), 1426-1429, (2014)
   

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Journal of the Chinese Advanced Materials Society, 3, (3), 149-160, (2015)
   

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Molecular Imprinting, 3, (1), 55-64, (2015)
   

Cáceres C et al., Does size matter? Study of performance of pseudo-ELISAs based on molecularly imprinted polymer nanoparticles prepared for analytes of different sizes.
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Separation Science and Technology, 52, (8), 1441-1453, (2017)
   

Garcia Y et al., Development of competitive 'pseudo'-ELISA assay for measurement of cocaine and its metabolites using molecularly imprinted polymer nanoparticles.
Analytical Methods, 9, (31), 4592-4598, (2017)
   

Karim K et al., A Protocol for the Computational Design of High Affinity Molecularly Imprinted Polymer Synthetic Receptors.
Global Journal of Biotechnology and Biomaterial Science, 3, (1), 001-007, (2017)
   

Motib A et al., Modulation of Quorum Sensing in a Gram-Positive Pathogen by Linear Molecularly Imprinted Polymers with Anti-infective Properties.
Angewandte Chemie International Edition, 56, (52), 16555-16558, (2017)
   

Piletska E et al., Biomimetic Silica Nanoparticles Prepared by a Combination of Solid-Phase Imprinting and Ostwald Ripening.
Scientific Reports, 7, (1), ArticleNo11537-(2017)
   

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Talanta, 175, 101-107, (2017)
   

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Biosensors and Bioelectronics, 96, 49-54, (2017)
   

Tang SP et al., A pseudo-ELISA based on molecularly imprinted nanoparticles for detection of gentamicin in real samples.
Analytical Methods, 9, (19), 2853-2858, (2017)
   

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Article_WF7, (2018)
   

Munawar H et al., Molecularly imprinted polymer nanoparticle-based assay (MINA): application for fumonisin B1 determination.
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Bedwell TS et al., New protocol for optimisation of polymer composition for imprinting of peptides and proteins.
RSC Advances, 9, (48), 27849-27855, (2019)
   

Ekpenyong-Akiba AE et al., Detecting and targeting senescent cells using molecularly imprinted nanoparticles.
Nanoscale Horizons, 4, (3), 757-768, (2019)
   

Esen C et al., Highly Efficient Abiotic Assay Formats for Methyl Parathion: Molecularly Imprinted Polymer Nanoparticle Assay as an Alternative to Enzyme-Linked Immunosorbent Assay.
Analytical Chemistry, 91, (1), 958-964, (2019)
   

López-Puertollano D et al., Study of Epitope Imprinting for Small Templates: Preparation of NanoMIPs for Ochratoxin A.
ChemNanoMat, 5, (5), 651-657, (2019)
   

Moczko E et al., Epitope approach in molecular imprinting of antibodies.
Journal of Chromatography B, 1124, 1-6, (2019)
   

Rapini R et al., NanoMIP-based approach for the suppression of interference signals in electrochemical sensors.
Analyst, 144, (24), 7290-7295, (2019)
   

Sergeyeva T et al., Development of a smartphone-based biomimetic sensor for aflatoxin B1 detection using molecularly imprinted polymer membranes.
Talanta, 201, 204-210, (2019)
   

Cowen T et al., Synthetic Mechanism of Molecular Imprinting at the Solid Phase.
Macromolecules, 53, (4), 1435-1442, (2020)
   

Garcia-Cruz A et al., Molecularly imprinted nanoparticles-based assay (MINA) - detection of leukotrienes and insulin.
Analyst, 145, (12), 4224-4232, (2020)
   

Garcia Cruz A et al., Design and fabrication of a smart sensor using in silico epitope mapping and electro-responsive imprinted polymer nanoparticles for determination of insulin levels in human plasma.
Biosensors and Bioelectronics, 169, Article112536-(2020)
   

Hand RA et al., Application of molecularly imprinted polymers in the anti-doping field: sample purification and compound analysis.
Analyst, 145, (14), 4716-4736, (2020)
   

Alanazi K et al., Disposable paracetamol sensor based on electroactive molecularly imprinted polymer nanoparticles for plasma monitoring.
Sensors and Actuators B: Chemical, 329, Article129128-(2021)
   

Piletsky SS et al., Snapshot imprinting: rapid identification of cancer cell surface proteins and epitopes using molecularly imprinted polymers.
Nano Today, 41, Article101304-(2021)
   

Abbott B et al., Use of polymeric solid phase in synthesis of MIP nanoparticles for biotin.
Reactive and Functional Polymers, 170, Article105109-(2022)
   

García Y et al., A magnetic molecularly imprinted nanoparticle assay (MINA) for detection of pepsin.
Reactive and Functional Polymers, 170, Article105133-(2022)
   

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Piletsky SA et al., Chemical grafting of molecularly imprinted homopolymers to the surface of microplates. Application of artificial adrenergic receptor in enzyme-linked assay for b-agonists determination.
Analytical Chemistry, 72, (18), 4381-4385, (2000)
   

Piletsky SA et al., Surface functionalization of porous polypropylene membranes with molecularly imprinted polymers by photograft copolymerization in water.
Macromolecules, 33, (8), 3092-3098, (2000)
   

Subrahmanyam S et al., Bite-and-switch approach to creatine recognition by use of molecularly imprinted polymers.
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Bossi A et al., Surface-grafted molecularly imprinted polymers for protein recognition.
Analytical Chemistry, 73, (21), 5281-5286, (2001)
   

Piletska EV et al., A new reactive polymer suitable for covalent immobilisation and monitoring of primary amines.
Polymer, 42, (8), 3603-3608, (2001)
   

Piletsky SA et al., Recognition of ephedrine enantiomers by molecularly imprinted polymers designed using a computational approach.
Analyst, 126, (10), 1826-1830, (2001)
   

Piletsky SA et al., Substitution of antibodies and receptors with molecularly imprinted polymers in enzyme-linked and fluorescent assays.
Biosensors and Bioelectronics, 16, (9-12), 701-707, (2001)
   

Subrahmanyam S et al., Bite-and-switch approach using computationally designed molecularly imprinted polymers for sensing of creatinine.
Biosensors and Bioelectronics, 16, (9-12), 631-637, (2001)
   

Piletsky SA et al., Polymer cookery: Influence of polymerization conditions on the performance of molecularly imprinted polymers.
Macromolecules, 35, (19), 7499-7504, (2002)
   

Sergeyeva TA et al., In situ formation of porous molecularly imprinted polymer membranes.
Macromolecules, 36, (19), 7352-7357, (2003)
   

Piletsky SA et al., Polymer cookery. 2. Influence of polymerization pressure and polymer swelling on the performance of molecularly imprinted polymers.
Macromolecules, 37, (13), 5018-5022, (2004)
   

Turner NW et al., Effect of the solvent on recognition properties of molecularly imprinted polymer specific for ochratoxin A.
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Advanced Drug Delivery Reviews, 57, (12), 1795-1808, (2005)
   

Piletska EV et al., Controlled release of the herbicide simazine from computationally designed molecularly imprinted polymers.
Journal of Controlled Release, 108, (1), 132-139, (2005)
   

Piletska EV et al., Towards the development of multisensor for drugs of abuse based on molecular imprinted polymers.
Analytica Chimica Acta, 542, (1), 111-117, (2005)
   

Piletska EV et al., Adaptation of the molecular imprinted polymers towards polar environment.
Analytica Chimica Acta, 542, (1), 47-51, (2005)
   

Piletsky SA et al., Molecularly imprinted polymers - Tyrosinase mimics.
Ukrainskii Biokhimicheskii Zhurnal, 77, (6), 63-67, (2005)
   

Piletsky SA et al., Polymer cookery: Influence of polymerization time and different initiation conditions on performance of molecularly imprinted polymers.
Macromolecules, 38, (4), 1410-1414, (2005)
   

Breton F et al., Book chapter, Mimicking the plastoquinone-binding pocket of Photosystem II using molecularly imprinted polymers, 
In: Biotechnological Applications of Photosynthetic Proteins: Biochips, Biosensors and Biodevices, Giardi MT, Piletska EV (Eds.) Landes Bioscience: Georgetown, Texas, Ch. 14, 155-165, (2006)
   

Chianella I et al., Computational design and synthesis of molecularly imprinted polymers with high binding capacity for pharmaceutical applications-model case: Adsorbent for abacavir.
Analytica Chimica Acta, 559, (1), 73-78, (2006)
   

Piletsky SA et al., Synthesis of Biologically Active Molecules by Imprinting Polymerisation.
Biopolymers and Cell, 22, (1), 63-68, (2006)
   

Breton F et al., Virtual imprinting as a tool to design efficient MIPs for photosynthesis-inhibiting herbicides.
Biosensors and Bioelectronics, 22, (9-10), 1948-1954, (2007)
   

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Analytica Chimica Acta, 582, (2), 311-319, (2007)
   

Guerreiro AR et al., Influence of continuous magnetic field on the separation of ephedrine enantiomers by molecularly imprinted polymers.
Biosensors and Bioelectronics, 23, (7), 1189-1194, (2008)
   

Mazzotta E et al., Development of a sensor prepared by entrapment of MIP particles in electrosynthesised polymer films for electrochemical detection of ephedrine.
Biosensors and Bioelectronics, 23, (7), 1152-1156, (2008)
   

Pascale M et al., Use of itaconic acid-based polymers for solid-phase extraction of deoxynivalenol and application to pasta analysis.
Analytica Chimica Acta, 609, (2), 131-138, (2008)
   

Piletska EV et al., Design of molecular imprinted polymers compatible with aqueous environment.
Analytica Chimica Acta, 607, (1), 54-60, (2008)
   

Garcinuño RM et al., The stabilisation of receptor structure in low cross-linked MIPs by an immobilised template.
Soft Matter, 5, (2), 313-317, (2009)
   

Lakshmi D et al., Electrochemical Sensor for Catechol and Dopamine Based on a Catalytic Molecularly Imprinted Polymer-Conducting Polymer Hybrid Recognition Element.
Analytical Chemistry, 81, (9), 3576-3584, (2009)
   

Piletska EV et al., Influence of the Polymerization Conditions on the Performance of Molecularly Imprinted Polymers.
Macromolecules, 42, (14), 4921-4928, (2009)
   

Romero-Guerra M et al., Development of a piezoelectric sensor for the detection of methamphetamine.
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Liu C et al., Synthesis of Lidocaine Molecularly Imprinted Polymers and Application on Solid Phase Extraction.
Chinese Journal of Analytical Chemistry, 38, (11), 1652-1656, (2010)
   

Piletska EV et al., Passive Control of Quorum Sensing: Prevention of Pseudomonas aeruginosa Biofilm Formation by Imprinted Polymers.
Biomacromolecules, 12, (4), 1067-1071, (2011)
   

Ivanova-Mitseva PK et al., Cubic Molecularly Imprinted Polymer Nanoparticles with a Fluorescent Core.
Angewandte Chemie International Edition, 51, (21), 5196-5199, (2012)
   

Muhammad T et al., Rational design and synthesis of water-compatible molecularly imprinted polymers for selective solid phase extraction of amiodarone.
Analytica Chimica Acta, 709, (1), 98-104, (2012)
   

Muhammad T et al., Rational design of molecularly imprinted polymer: the choice of cross-linker.
Analyst, 137, (11), 2623-2628, (2012)
   

Piletska EV et al., Application of a Molecularly Imprinted Polymer for the Extraction of Kukoamine A from Potato Peels.
Journal of Agricultural and Food Chemistry, 60, (1), 95-99, (2012)
   

Chianella I et al., Direct Replacement of Antibodies with Molecularly Imprinted Polymer Nanoparticles in ELISA - Development of a Novel Assay for Vancomycin.
Analytical Chemistry, 85, (17), 8462-8468, (2013)
   

Lakshmi D et al., Computational Design and Preparation of MIPs for Atrazine Recognition on a Conjugated Polymer-Coated Microtiter Plate.
Industrial & Engineering Chemistry Research, 52, (39), 13910-13916, (2013)
   

Poma A et al., Solid-Phase Synthesis of Molecularly Imprinted Polymer Nanoparticles with a Reusable Template-"Plastic Antibodies".
Advanced Functional Materials, 23, (22), 2821-2827, (2013)
   

Sergeyeva TA et al., Colorimetric test-systems for creatinine detection based on composite molecularly imprinted polymer membranes.
Analytica Chimica Acta, 770, 161-168, (2013)
   

Sergeyeva TA et al., Colorimetric biomimetic sensor systems based on molecularly imprinted polymer membranes for highly-selective detection of phenol in environmental samples.
Biopolymers and Cell, 30, (3), 209-215, (2014)
   

Piletska EV et al., Magnetic high throughput screening system for the development of nano-sized molecularly imprinted polymers for controlled delivery of curcumin.
Analyst, 140, (9), 3113-3120, (2015)
   

Piletsky SS et al., Development of molecularly imprinted polymers specific for blood antigens for application in antibody-free blood typing.
Chemical Communications, 53, (11), 1793-1796, (2017)
   

Sergeyeva TA et al., Sensor System for Sulfamethoxazole Detection Based on Molecularly Imprinted Polymer Membranes.
Innovative Biosystems & Bioengineering, 1, (1), 11-17, (2017)
   

Piletsky SS et al., A Novel Assay Format as an Alternative to ELISA: MINA Test for Biotin.
ChemNanoMat, 4, (12), 1214-1222, (2018)
   

Garcia Lopez J et al., Application of molecularly imprinted polymer nanoparticles for degradation of the bacterial autoinducer N-hexanoyl homoserine lactone.
Chemical Communications, 55, (18), 2664-2667, (2019)
   

Piletska EV et al., Combinatorial screening of polymer nanoparticles for their ability to recognize epitopes of AAV-neutralizing antibodies.
Journal of Molecular Recognition, 33, (4), Article_e2824-(2020)
   

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Sergeyeva TA et al., Capacitive sensor for environmental monitoring based on thin films of molecularly imprinted polymers. Computational modeling for optimization of the polymers-biomimics composition.
Ukrainskii Biokhimicheskii Zhurnal, 78, (2), 121-130, (2006)
   

Sergeyeva TA et al., Aflatoxin-selective molecularly-imprinted polymer membranes based on acrylate-polyurethane semi-interpenetrating polymer networks.
Ukrainskii Biokhimicheskii Zhurnal, 79, (5), 109-115, (2007)
   

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Materials Science and Engineering: C, 28, (8), 1472-1479, (2008)
   

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Ukrainskii Biokhimicheskii Zhurnal, 80, (3), 84-93, (2008)
   

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Materials Science and Engineering: C, 30, (3), 431-436, (2010)
   

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Sensors and Actuators B: Chemical, 60, (2-3), 216-220, (1999)
   

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Panasyuk T et al., Molecular imprinted polymers prepared by electropolymerization of Ni-(Protoporphyrin IX).
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Wolfbeis O et al., Book chapter, Fluorescence techniques for probing molecular interactions in imprinted polymers, 
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Medical & Biological Engineering & Computing, 37, (Suppl. 2), 344-345, (1999)
   

Panasyuk T et al., Proceeding, Selective films prepared by imprinting electropolymerization of metalloporphyrins, 
Di Natale C, D'Amico A, Sberveglieri G (Eds.), 25-29, (1999)
   

Cullen DC et al., Proceeding, Proposed biomimetic molecular sensor array for astrobiology applications, 
Ehrenfreund P, Angerer O, Battrick B (Eds.), 329-332, (2001)
   

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Lacoste H (Ed.), 513-514, (2002)
   

Kröger S et al., Biosensors for marine pollution research, monitoring and control.
Marine Pollution Bulletin, 45, (1-12), 24-34, (2002)
   

Piletsky S et al., Surface functionalization of porous polypropylene membranes with polyaniline for protein immobilization.
Biotechnology and Bioengineering, 82, (1), 86-92, (2003)
   

Lotierzo M et al., Surface plasmon resonance sensor for domoic acid based on grafted imprinted polymer.
Biosensors and Bioelectronics, 20, (2), 145-152, (2004)
   

Piletska E et al., Biotin-specific synthetic receptors prepared using molecular imprinting.
Analytica Chimica Acta, 504, (1), 179-183, (2004)
   

Piletsky S et al., Custom synthesis of molecular imprinted polymers for biotechnological application - Preparation of a polymer selective for tylosin.
Analytica Chimica Acta, 504, (1), 123-130, (2004)
   

Schneider F et al., Comparison of thin-layer and bulk MlPs synthesized by photoinitiated in situ crosslinking polymerization from the same reaction mixtures.
Journal of Applied Polymer Science, 98, (1), 362-372, (2005)
   

Mijangos I et al., Influence of initiator and different polymerisation conditions on performance of molecularly imprinted polymers.
Biosensors and Bioelectronics, 22, (3), 381-387, (2006)
   

Nicholls C et al., Displacement imprinted polymer receptor analysis (DIPRA) for chlorophenolic contaminants in drinking water and packaging materials.
Biosensors and Bioelectronics, 21, (7), 1171-1177, (2006)
   

Piletsky S et al., Book chapter, A new generation of chemical sensors based on MIPs, 
In: Molecular imprinting of polymers, Piletsky S, Turner A (Eds.) Landes Bioscience: Georgetown, Texas, Ch. 6, 64-79, (2006)
   

Bonini F et al., Surface imprinted beads for the recognition of human serum albumin.
Biosensors and Bioelectronics, 22, (9-10), 2322-2328, (2007)
   

Bossi A et al., ''Gate effect'' in templated polyacrylamide membranes influences the electrotransport of proteins and finds applications in proteome analysis.
Analytical and Bioanalytical Chemistry, 389, (2), 447-454, (2007)
   

Guerreiro A et al., Preliminary evaluation of new polymer matrix for solid-phase extraction of nonylphenol from water samples.
Analytica Chimica Acta, 612, (1), 99-104, (2008)
   

Berti F et al., Book chapter, One-Dimensional Polyaniline Nanotubes for Enhanced Chemical and Biochemical Sensing, 
In: Sensors and Microsystems, Neri G, Donato N, D'Amico A, Di Natale C (Eds.) Springer Netherlands: Ch. 48, 311-315, (2011)
   

Gomez-Caballero A et al., Chiral imprinted polymers as enantiospecific coatings of stir bar sorptive extraction devices.
Biosensors and Bioelectronics, 28, (1), 25-32, (2011)
   

Bakas I et al., Molecular imprinting solid phase extraction for selective detection of methidathion in olive oil.
Analytica Chimica Acta, 734, (1), 99-105, (2012)
   

Dubey L et al., Selective Recognition of Bifunctional Molecules by Synthetic Polymers Prepared by Covalent Molecular Imprinting.
The Open Analytical Chemistry Journal, 6, 15-21, (2012)
   

Bakas I et al., Computational and experimental investigation of molecular imprinted polymers for selective extraction of dimethoate and its metabolite omethoate from olive oil.
Journal of Chromatography A, 1274, 13-18, (2013)
   

Cowieson D et al., Grafting of molecularly imprinted polymer to porous polyethylene filtration membranes by plasma polymerization.
Analytical and Bioanalytical Chemistry, 405, (20), 6489-6496, (2013)
   

Ge Y et al., Book chapter, Molecularly Imprinted Polymers: Promising Advanced Materials for In Vivo Sensing, 
In: Microelectrode Biosensors, Marinesco S, Dale N (Eds.) Humana Press: Ch. 17, 369-384, (2013)
   

Moczko E et al., PEG-Stabilized Core-Shell Surface-Imprinted Nanoparticles.
Langmuir, 29, (31), 9891-9896, (2013)
   

Moczko E et al., Surface-modified multifunctional MIP nanoparticles.
Nanoscale, 5, (9), 3733-3741, (2013)
   

Muzyka K et al., Book chapter, Molecularly Imprinted Polymer-based Voltammetric Sensors, 
In: Handbook of Molecularly Imprinted Polymers, Alvarez-Lorenzo C, Concheiro A (Eds.) Smithers Rapra: Ch. 5, 197-228, (2013)
   

Piletska E et al., Extraction of salbutamol using co-sintered molecularly imprinted polymers as a new format of solid-phase extraction.
Analytical Methods, 5, (24), 6954-6959, (2013)
   

Piletska E et al., Rational design and development of affinity adsorbents for analytical and biopharmaceutical applications.
Journal of the Chinese Advanced Materials Society, 1, (3), 229-244, (2013)
   

Poma A et al., Book chapter, Plastic Antibodies, 
In: Designing Receptors for the Next Generation of Biosensors, Piletsky SA, Whitcombe MJ (Eds.) Springer: Berlin, Heidelberg, 105-129, (2013)
   

Subrahmanyam S et al., Optimization of experimental conditions for synthesis of high affinity MIP nanoparticles.
European Polymer Journal, 49, 100-105, (2013)
   

Unceta N et al., Enantioselective extraction of (+)-(S)-citalopram and its main metabolites using a tailor-made stir bar chiral imprinted polymer for their LC-ESI-MS/MS quantitation in urine samples.
Talanta, 116, 448-453, (2013)
   

Bakas I et al., Molecularly imprinted polymer cartridges coupled to high performance liquid chromatography (HPLC-UV) for simple and rapid analysis of fenthion in olive oil.
Talanta, 125, 313-318, (2014)
   

Bakas I et al., Electrochemical impedimetric sensor based on molecularly imprinted polymers/sol-gel chemistry for methidathion organophosphorous insecticide recognition.
Talanta, 130, 294-298, (2014)
   

Guerreiro A et al., Influence of Surface-Imprinted Nanoparticles on Trypsin Activity.
Advanced Healthcare Materials, 3, (9), 1426-1429, (2014)
   

Korposh S et al., Selective vancomycin detection using optical fibre long period gratings functionalised with molecularly imprinted polymer nanoparticles.
Analyst, 139, (9), 2229-2236, (2014)
   

Muzyka K et al., Optimisation of the synthesis of vancomycin-selective molecularly imprinted polymer nanoparticles using automatic photoreactor.
Nanoscale Research Letters, 9, Article No 154-(2014)
   

Poma A et al., Automatic reactor for solid-phase synthesis of molecularly imprinted polymeric nanoparticles (MIP NPs) in water.
RSC Advances, 4, (8), 4203-4206, (2014)
   

Altintas Z et al., Detection of Waterborne Viruses Using High Affinity Molecularly Imprinted Polymers.
Analytical Chemistry, 87, (13), 6801-6807, (2015)
   

Barlev N et al., T86: New approaches to the rational design of anticancer drugs.
European Journal of Cancer Supplements, 13, (1), 3-4, (2015)
   

Garcia-Mutio D et al., Molecularly Imprinted High Affinity Nanoparticles for 4-Ethylphenol Sensing.
Procedia Engineering, 120, 1132-1136, (2015)
   

Bates F et al., Virtual Screening of Receptor Sites for Molecularly Imprinted Polymers.
Macromolecular Bioscience, 16, (8), 1170-1174, (2016)
   

Canfarotta F et al., Solid-phase synthesis of molecularly imprinted nanoparticles.
Nature Protocols, 11, (3), 443-455, (2016)
   

Canfarotta F et al., Biocompatibility and internalization of molecularly imprinted nanoparticles.
Nano Research, 9, (11), 3463-3477, (2016)
   

Cowen T et al., Computational approaches in the design of synthetic receptors - A review.
Analytica Chimica Acta, 936, 62-74, (2016)
   

Czulak J et al., Formation of target-specific binding sites in enzymes: solid-phase molecular imprinting of HRP.
Nanoscale, 8, (21), 11060-11066, (2016)
   

Garcia-Mutio D et al., Solid-phase synthesis of imprinted nanoparticles grafted on gold substrates for voltammetric sensing of 4-ethylphenol.
Sensors and Actuators B: Chemical, 236, 839-848, (2016)
   

Muzyka K et al., Theoretical quantum mechanical based studies of melamine - monomers interaction in pre-polymerisation phase.
Journal of the Chinese Advanced Materials Society, 4, (1), 24-35, (2016)
   

Rodríguez-Dorado R et al., Oxytetracycline recovery from aqueous media using computationally designed molecularly imprinted polymers.
Analytical and Bioanalytical Chemistry, 408, (24), 6845-6856, (2016)
   

Smolinska-Kempisty K et al., A comparison of the performance of molecularly imprinted polymer nanoparticles for small molecule targets and antibodies in the ELISA format.
Scientific Reports, 6, ArticleNo37638-(2016)
   

Aftim N et al., Biosensor-assisted selection of optimal parameters for designing molecularly imprinted polymers selective to phosmet insecticide.
Talanta, 174, 414-419, (2017)
   

Bates F et al., Computational design of molecularly imprinted polymer for direct detection of melamine in milk.
Separation Science and Technology, 52, (8), 1441-1453, (2017)
   

Canfarotta F et al., Book chapter, Replacement of Antibodies in Pseudo-ELISAs: Molecularly Imprinted Nanoparticles for Vancomycin Detection, 
In: Synthetic Antibodies: Methods and Protocols, Tiller T (Ed.) Springer: New York, NY, 389-398, (2017)
   

Cecchini A et al., In Vivo Recognition of Human Vascular Endothelial Growth Factor by Molecularly Imprinted Polymers.
Nano Letters, 17, (4), 2307-2312, (2017)
   

Garcia Y et al., Development of competitive 'pseudo'-ELISA assay for measurement of cocaine and its metabolites using molecularly imprinted polymer nanoparticles.
Analytical Methods, 9, (31), 4592-4598, (2017)
   

Motib A et al., Modulation of Quorum Sensing in a Gram-Positive Pathogen by Linear Molecularly Imprinted Polymers with Anti-infective Properties.
Angewandte Chemie International Edition, 56, (52), 16555-16558, (2017)
   

Sergeyeva T et al., Fluorescent sensor systems based on nanostructured polymeric membranes for selective recognition of Aflatoxin B1.
Talanta, 175, 101-107, (2017)
   

Smolinska-Kempisty K et al., New potentiometric sensor based on molecularly imprinted nanoparticles for cocaine detection.
Biosensors and Bioelectronics, 96, 49-54, (2017)
   

Tang SP et al., A pseudo-ELISA based on molecularly imprinted nanoparticles for detection of gentamicin in real samples.
Analytical Methods, 9, (19), 2853-2858, (2017)
   

Busato M et al., MIRATE: MIps RATional dEsign Science Gateway.
Journal of Integrative Bioinformatics, 15, (4), (2018)
   

Canfarotta F et al., Recent advances in electrochemical sensors based on chiral and nano-sized imprinted polymers.
Current Opinion in Electrochemistry, 7, 146-152, (2018)
   

Canfarotta F et al., Book chapter, Nano-sized Molecularly Imprinted Polymers as Artificial Antibodies, 
In: Molecularly Imprinted Polymers for Analytical Chemistry Applications, Kutner W, Sharma PS (Eds.) Royal Society of Chemistry: Ch. 1, 1-27, (2018)
   

Canfarotta F et al., Specific Drug Delivery to Cancer Cells with Double-Imprinted Nanoparticles against Epidermal Growth Factor Receptor.
Nano Letters, 18, (8), 4641-4646, (2018)
   

Canfarotta F et al., A novel capacitive sensor based on molecularly imprinted nanoparticles as recognition elements.
Biosensors and Bioelectronics, 120, 108-114, (2018)
   

Florea A et al., Polymer platforms for selective detection of cocaine in street samples adulterated with levamisole.
Talanta, 186, 362-367, (2018)
   

Liu LL et al., Proceeding, Molecularly Imprinted Nanoparticles Based on Long Period Grating Sensor for Detection of Fentanyl, 
Article_WF7, (2018)
   

Ekpenyong-Akiba AE et al., Detecting and targeting senescent cells using molecularly imprinted nanoparticles.
Nanoscale Horizons, 4, (3), 757-768, (2019)
   

Florea A et al., Electrochemical sensing of cocaine in real samples based on electrodeposited biomimetic affinity ligands.
Analyst, 144, (15), 4639-4646, (2019)
   

López-Puertollano D et al., Study of Epitope Imprinting for Small Templates: Preparation of NanoMIPs for Ochratoxin A.
ChemNanoMat, 5, (5), 651-657, (2019)
   

Mahajan R et al., Highly Efficient Synthesis and Assay of Protein-Imprinted Nanogels by Using Magnetic Templates.
Angewandte Chemie International Edition, 58, (3), 727-730, (2019)
   

Moczko E et al., Molecularly Imprinted Nanoparticles Assay (MINA) in Pseudo ELISA: An Alternative to Detect and Quantify Octopamine in Water and Human Urine Samples.
Polymers, 11, (9), ArticleNo1497-(2019)
   

Moro G et al., Conductive imprinted polymers for the direct electrochemical detection of [beta]-lactam antibiotics: The case of cefquinome.
Sensors and Actuators B: Chemical, 297, Article126786-(2019)
   

Rapini R et al., NanoMIP-based approach for the suppression of interference signals in electrochemical sensors.
Analyst, 144, (24), 7290-7295, (2019)
   

Sergeyeva T et al., Development of a smartphone-based biomimetic sensor for aflatoxin B1 detection using molecularly imprinted polymer membranes.
Talanta, 201, 204-210, (2019)
   

Smolinska-Kempisty K et al., Negative selection of MIPs to create high specificity ligands for glycated haemoglobin.
Sensors and Actuators B: Chemical, 301, Article126967-(2019)
   

Wu BB et al., A molecularly imprinted polymer based monolith pipette tip for solid-phase extraction of 2, 4-dichlorophenoxyacetic acid in an aqueous sample.
Analytical Methods, 12, (40), 4913-4921, (2020)
   

Liu LL et al., Carboxyl-fentanyl detection using optical fibre grating-based sensors functionalised with molecularly imprinted nanoparticles.
Biosensors and Bioelectronics, 177, Article113002-(2021)
   

Piletsky SA

Piletsky SA et al., Nucleoside-selective polymers based on methacrylate copolymers.
Ukrainskii Khimicheskii Zhurnal, 59, (12), 1316-1320, (1993)
   

Starodub NF et al., Template sensors for low weight organic molecules based on SiO2 surfaces.
Sensors and Actuators B: Chemical, 14, (1-3), 708-710, (1993)
   

Piletsky SA et al., Sensors for low-weight organic-molecules based on molecular imprinting technique.
Sensors and Actuators B: Chemical, 19, (1-3), 629-631, (1994)
   

Piletsky SA et al., Atrazine sensing by molecularly imprinted membranes.
Biosensors and Bioelectronics, 10, (9-10), 959-964, (1995)
   

Piletsky SA et al., A biomimetic receptor system for sialic acid based on molecular imprinting.
Analytical Letters, 29, (2), 157-170, (1996)
   

Levi R et al., Optical detection of chloramphenicol using molecularly imprinted polymers.
Analytical Chemistry, 69, (11), 2017-2021, (1997)
   

Piletsky SA et al., Optical detection system for triazine based on molecularly-imprinted polymers.
Analytical Letters, 30, (3), 445-455, (1997)
   

Piletsky SA et al., The rational use of hydrophobic effect-based recognition in molecularly imprinted polymers.
Journal of Molecular Recognition, 11, (1-6), 94-97, (1998)
   

Piletsky SA et al., Imprinted membranes for sensor technology: Opposite behavior of covalently and noncovalently imprinted membranes.
Macromolecules, 31, (7), 2137-2140, (1998)
   

Svenson J et al., Spectroscopic studies of the molecular imprinting self-assembly process.
Journal of Molecular Recognition, 11, (1-6), 83-86, (1998)
   

Andersson HS et al., Study of the nature of recognition in molecularly imprinted polymers, II [1] - Influence of monomer-template ratio and sample load on retention and selectivity.
Journal of Chromatography A, 848, (1-2), 39-49, (1999)
   

Mirsky VM et al., A spreader-bar approach to molecular architecture: formation of stable artificial chemoreceptors.
Angewandte Chemie International Edition, 38, (8), 1108-1110, (1999)
   

Panasyuk TL et al., Electropolymerized molecularly imprinted polymers as receptor layers in a capacitive chemical sensors.
Analytical Chemistry, 71, (20), 4609-4613, (1999)
   

Piletsky SA et al., Combined hydrophobic and electrostatic interaction-based recognition in molecularly imprinted polymers.
Macromolecules, 32, (3), 633-636, (1999)
   

Piletsky SA et al., Receptor and transport properties of imprinted polymer membranes - a review.
Journal of Membrane Science, 157, (2), 263-278, (1999)
   

Piletsky SA et al., Application of non-specific fluorescent dyes for monitoring enantio-selective ligand binding to molecularly imprinted polymers.
Fresenius Journal of Analytical Chemistry, 364, (6), 512-516, (1999)
   

Piletsky SA et al., Molecularly imprinted self-assembled films with specificity to cholesterol.
Sensors and Actuators B: Chemical, 60, (2-3), 216-220, (1999)
   

Sergeyeva TA et al., Conductimetric sensor for atrazine detection based on molecularly imprinted polymer membranes.
Analyst, 124, (3), 331-334, (1999)
   

Sergeyeva TA et al., Selective recognition of atrazine by molecularly imprinted polymer membranes. Development of conductometric sensor for herbicides detection.
Analytica Chimica Acta, 392, (2-3), 105-111, (1999)
   

Turner APF et al., In vitro diagnostics in diabetes: Meeting the challenge.
Clinical Chemistry, 45, (9), 1596-1601, (1999)
   

Piletsky SA et al., Chemical grafting of molecularly imprinted homopolymers to the surface of microplates. Application of artificial adrenergic receptor in enzyme-linked assay for b-agonists determination.
Analytical Chemistry, 72, (18), 4381-4385, (2000)
   

Piletsky SA et al., Surface functionalization of porous polypropylene membranes with molecularly imprinted polymers by photograft copolymerization in water.
Macromolecules, 33, (8), 3092-3098, (2000)
   

Subrahmanyam S et al., Bite-and-switch approach to creatine recognition by use of molecularly imprinted polymers.
Advanced Materials, 12, (10), 722-724, (2000)
   

Bossi A et al., Surface-grafted molecularly imprinted polymers for protein recognition.
Analytical Chemistry, 73, (21), 5281-5286, (2001)
   

Matuschewski H et al., Proceeding, Surface engineering: Molecularly imprinted affinity membranes by photograft polymerization, 
Vo-Dinh T, Buettgenbach S (Eds.), 65-74, (2001)
   

Piletska EV et al., A new reactive polymer suitable for covalent immobilisation and monitoring of primary amines.
Polymer, 42, (8), 3603-3608, (2001)
   

Piletsky SA et al., Application of molecularly imprinted polymers in sensors for the environment and biotechnology.
Sensor Review, 21, (4), 292-296, (2001)
   

Piletsky SA et al., Molecular imprinting: at the edge of the third millennium.
Trends In Biotechnology, 19, (1), 9-12, (2001)
   

Piletsky SA et al., Recognition of ephedrine enantiomers by molecularly imprinted polymers designed using a computational approach.
Analyst, 126, (10), 1826-1830, (2001)
   

Piletsky SA et al., Substitution of antibodies and receptors with molecularly imprinted polymers in enzyme-linked and fluorescent assays.
Biosensors and Bioelectronics, 16, (9-12), 701-707, (2001)
   

Sergeyeva TA et al., Molecularly imprinted polymer membranes for substance-selective solid-phase extraction from water by surface photo-grafting polymerization.
Journal of Chromatography A, 907, (1-2), 89-99, (2001)
   

Subrahmanyam S et al., Bite-and-switch approach using computationally designed molecularly imprinted polymers for sensing of creatinine.
Biosensors and Bioelectronics, 16, (9-12), 631-637, (2001)
   

Tothill IE et al., Book chapter, New biosensors, 
In: Instrumentation and sensors for the food industry, Kress-Rogers E, Brimelow CJB (Eds.) Woodhead Publishing Ltd.: Cambridge, UK, Ch. 23, (2001)
   

Chianella I et al., Rational design of a polymer specific for microcystin-LR using a computational approach.
Analytical Chemistry, 74, (6), 1288-1293, (2002)
   

Piletsky SA et al., Polymer cookery: Influence of polymerization conditions on the performance of molecularly imprinted polymers.
Macromolecules, 35, (19), 7499-7504, (2002)
   

Piletsky SA et al., Book chapter, New materials based on imprinted polymers and their application in optical biosensors, 
In: Optical bioensors: Present and future, Ligler FS, Rowe Taitt CA (Eds.) Elsevier: Amsterdam, Ch. 13, 397-426, (2002)
   

Piletsky SA et al., Electrochemical sensors based on molecularly imprinted polymers.
Electroanalysis, 14, (5), 317-323, (2002)
   

Chianella I et al., MIP-based solid phase extraction cartridges combined with MIP-based sensors for the detection of microcystin-LR.
Biosensors and Bioelectronics, 18, (2-3), 119-127, (2003)
   

Sergeyeva TA et al., In situ formation of porous molecularly imprinted polymer membranes.
Macromolecules, 36, (19), 7352-7357, (2003)
   

Bossi A et al., Properties of poly-aminophenylboronate coatings in capillary electrophoresis for the selective separation of diastereoisomers and glycoproteins.
Journal of Chromatography A, 1023, (2), 297-303, (2004)
   

Hattori K et al., Gate effect of theophylline-imprinted polymers grafted to the cellulose by living radical polymerization.
Journal of Membrane Science, 233, (1-2), 169-173, (2004)
   

Piletsky SA et al., Polymer cookery. 2. Influence of polymerization pressure and polymer swelling on the performance of molecularly imprinted polymers.
Macromolecules, 37, (13), 5018-5022, (2004)
   

Sergeyeva TA et al., Development of molecularly imprinted polymer membranes with specificity to triazine herbicides, prepared by the "surface photografting" technique.
Biopolymers and Cell, 20, (4), 307-315, (2004)
   

Turner NW et al., Effect of the solvent on recognition properties of molecularly imprinted polymer specific for ochratoxin A.
Biosensors and Bioelectronics, 20, (6), 1060-1067, (2004)
   

Bastide J et al., The use of molecularly imprinted polymers for extraction of sulfonylurea herbicides.
Analytica Chimica Acta, 542, (1), 97-103, (2005)
   

Henry OYF et al., Optical interrogation of molecularly imprinted polymers and development of MIP sensors: a review.
Analytical and Bioanalytical Chemistry, 382, (4), 947-956, (2005)
   

Karim K et al., How to find effective functional monomers for effective molecularly imprinted polymers?
Advanced Drug Delivery Reviews, 57, (12), 1795-1808, (2005)
   

Nicholls IA et al., Book chapter, Thermodynamic considerations and the use of molecular modeling as a tool for predicting MIP performance, 
In: Molecularly Imprinted Materials: Science and Technology, Yan M, Ramström O (Eds.) Marcel Dekker: New York, Ch. 14, 363-393, (2005)
   

Piletska EV et al., Controlled release of the herbicide simazine from computationally designed molecularly imprinted polymers.
Journal of Controlled Release, 108, (1), 132-139, (2005)
   

Piletska EV et al., Towards the development of multisensor for drugs of abuse based on molecular imprinted polymers.
Analytica Chimica Acta, 542, (1), 111-117, (2005)
   

Piletska EV et al., Adaptation of the molecular imprinted polymers towards polar environment.
Analytica Chimica Acta, 542, (1), 47-51, (2005)
   

Piletsky SA et al., Molecularly imprinted polymers - Tyrosinase mimics.
Ukrainskii Biokhimicheskii Zhurnal, 77, (6), 63-67, (2005)
   

Piletsky SA et al., Polymer cookery: Influence of polymerization time and different initiation conditions on performance of molecularly imprinted polymers.
Macromolecules, 38, (4), 1410-1414, (2005)
   

Piletsky SA et al., On the role of electrostatic interactions in the enantioselective recognition of phenylalanine in molecularly imprinted polymers incorporating [beta]-cyclodextrin.
Polymer Journal, 37, (10), 793-796, (2005)
   

Breton F et al., Integration of photosynthetic biosensor with molecularly imprinted polymer-based solid phase extraction cartridge.
Analytica Chimica Acta, 569, (1-2), 50-57, (2006)
   

Breton F et al., Book chapter, Mimicking the plastoquinone-binding pocket of Photosystem II using molecularly imprinted polymers, 
In: Biotechnological Applications of Photosynthetic Proteins: Biochips, Biosensors and Biodevices, Giardi MT, Piletska EV (Eds.) Landes Bioscience: Georgetown, Texas, Ch. 14, 155-165, (2006)
   

Chianella I et al., Computational design and synthesis of molecularly imprinted polymers with high binding capacity for pharmaceutical applications-model case: Adsorbent for abacavir.
Analytica Chimica Acta, 559, (1), 73-78, (2006)
   

Piletsky SA et al., Synthesis of Biologically Active Molecules by Imprinting Polymerisation.
Biopolymers and Cell, 22, (1), 63-68, (2006)
   

Piletsky SA et al., Molecularly imprinted polymers in clinical diagnostics - Future potential and existing problems.
Medical Engineering & Physics, 28, (10), 971-977, (2006)
   

Sergeyeva TA et al., Capacitive sensor for environmental monitoring based on thin films of molecularly imprinted polymers. Computational modeling for optimization of the polymers-biomimics composition.
Ukrainskii Biokhimicheskii Zhurnal, 78, (2), 121-130, (2006)
   

Yoshimi Y et al., Star shaped molecularly imprinted polymer.
Polymer Preprints, Japan, 55, (2), 5404-5405, (2006)
   

Bossi A et al., Patterned gallium surfaces as molecular mirrors.
Biosensors and Bioelectronics, 23, (2), 290-294, (2007)
   

Bossi A et al., Molecularly imprinted polymers for the recognition of proteins: The state of the art.
Biosensors and Bioelectronics, 22, (6), 1131-1137, (2007)
   

Breton F et al., Virtual imprinting as a tool to design efficient MIPs for photosynthesis-inhibiting herbicides.
Biosensors and Bioelectronics, 22, (9-10), 1948-1954, (2007)
   

Sánchez-Barragán I et al., A molecularly imprinted polymer for carbaryl determination in water.
Sensors and Actuators B: Chemical, 123, (2), 798-804, (2007)
   

Sergeyeva TA et al., Porous molecularly imprinted polymer membranes and polymeric particles.
Analytica Chimica Acta, 582, (2), 311-319, (2007)
   

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Ukrainskii Biokhimicheskii Zhurnal, 79, (5), 109-115, (2007)
   

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Biomacromolecules, 8, (9), 2781-2787, (2007)
   

Uludag Y et al., Piezoelectric sensors based on molecular imprinted polymers for detection of low molecular mass analytes.
FEBS Journal, 274, (21), 5471-5480, (2007)
   

Guerreiro AR et al., Influence of continuous magnetic field on the separation of ephedrine enantiomers by molecularly imprinted polymers.
Biosensors and Bioelectronics, 23, (7), 1189-1194, (2008)
   

Henry OYF et al., Fabrication of molecularly imprinted polymer microarray on a chip by mid-infrared laser pulse initiated polymerisation.
Biosensors and Bioelectronics, 23, (12), 1769-1775, (2008)
   

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Biosensors and Bioelectronics, 23, (7), 1152-1156, (2008)
   

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Analytica Chimica Acta, 609, (2), 131-138, (2008)
   

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Analytica Chimica Acta, 607, (1), 54-60, (2008)
   

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Materials Science and Engineering: C, 28, (8), 1472-1479, (2008)
   

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Ukrainskii Biokhimicheskii Zhurnal, 80, (3), 84-93, (2008)
   

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Soft Matter, 5, (2), 313-317, (2009)
   

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Biosensors and Bioelectronics, 24, (8), 2740-2743, (2009)
   

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Analytical Chemistry, 81, (9), 3576-3584, (2009)
   

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Macromolecules, 42, (14), 4921-4928, (2009)
   

Romero-Guerra M et al., Development of a piezoelectric sensor for the detection of methamphetamine.
Analyst, 134, (8), 1565-1570, (2009)
   

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Ukrainskii Biokhimicheskii Zhurnal, 81, (1), 41-51, (2009)
   

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In: Combinatorial Methods for Chemical and Biological Sensors, Potyrailo RA, Mirsky VM (Eds.) Springer: New York, Ch. 6, 135-172, (2009)
   

Berti F et al., Quasi-monodimensional polyaniline nanostructures for enhanced molecularly imprinted polymer-based sensing.
Biosensors and Bioelectronics, 26, (2), 497-503, (2010)
   

Poma A et al., Advances in the manufacture of MIP nanoparticles.
Trends In Biotechnology, 28, (12), 629-637, (2010)
   

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Analytica Chimica Acta, 659, (1-2), 274-279, (2010)
   

Yañez F et al., Computational modeling and molecular imprinting for the development of acrylic polymers with high affinity for bile salts.
Analytica Chimica Acta, 659, (1-2), 178-185, (2010)
   

Li SJ et al., 'On/off'-switchable catalysis by a smart enzyme-like imprinted polymer.
Journal of Catalysis, 278, (2), 173-180, (2011)
   

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Advanced Functional Materials, 21, (17), 3344-3349, (2011)
   

Piletska EV et al., Passive Control of Quorum Sensing: Prevention of Pseudomonas aeruginosa Biofilm Formation by Imprinted Polymers.
Biomacromolecules, 12, (4), 1067-1071, (2011)
   

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Chemical Society Reviews, 40, (3), 1547-1571, (2011)
   

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Angewandte Chemie International Edition, 51, (21), 5196-5199, (2012)
   

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Analytical and Bioanalytical Chemistry, 402, (5), 1827-1846, (2012)
   

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Analytica Chimica Acta, 709, (1), 98-104, (2012)
   

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Analyst, 137, (11), 2623-2628, (2012)
   

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Journal of Agricultural and Food Chemistry, 60, (1), 95-99, (2012)
   

Piletsky SA et al., Book chapter, Molecularly Imprinted Polymers, 
In: Encyclopedia of Biophysics, Roberts GCK (Ed.) Springer: 1596-1599, (2012)
   

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In: Molecularly Imprinted Sensors, Li SJ, Ge Y, Piletsky SA, Lunec J (Eds.) Elsevier: Amsterdam, Ch. 14, 339-354, (2012)
   

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Biotechnology Advances, 31, (8), 1585-1599, (2013)
   

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Analytical Chemistry, 85, (17), 8462-8468, (2013)
   

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Industrial & Engineering Chemistry Research, 52, (39), 13917-13923, (2013)
   

Krupadam RJ et al., Molecularly Imprinted Polymer Receptors for Nicotine Recognition in Biological systems.
Molecular Imprinting, 1, (1), 27-34, (2013)
   

Lakshmi D et al., Computational Design and Preparation of MIPs for Atrazine Recognition on a Conjugated Polymer-Coated Microtiter Plate.
Industrial & Engineering Chemistry Research, 52, (39), 13910-13916, (2013)
   

Li SJ et al., A successive-reaction nanoreactor made of active molecularly imprinted polymer containing Ag nanoparticles.
Journal of Materials Chemistry A, 1, (47), 15102-15109, (2013)
   

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Poma A et al., Solid-Phase Synthesis of Molecularly Imprinted Polymer Nanoparticles with a Reusable Template-"Plastic Antibodies".
Advanced Functional Materials, 23, (22), 2821-2827, (2013)
   

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Analytica Chimica Acta, 770, 161-168, (2013)
   

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The Open Analytical Chemistry Journal, 7, 22-29, (2013)
   

Li SJ et al., Size matters: Challenges in imprinting macromolecules.
Progress in Polymer Science, 39, (1), 145-163, (2014)
   

Sergeyeva TA et al., Colorimetric biomimetic sensor systems based on molecularly imprinted polymer membranes for highly-selective detection of phenol in environmental samples.
Biopolymers and Cell, 30, (3), 209-215, (2014)
   

Shutov RV et al., Introducing MINA - The Molecularly Imprinted Nanoparticle Assay.
Small, 10, (6), 1086-1089, (2014)
   

Wren SP et al., Proceeding, Design and synthesis of a fluorescent molecular imprinted polymer for use in an optical fibre-based cocaine sensor, 
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Sensors and Actuators B: Chemical, 213, 305-313, (2015)
   

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Journal of the Chinese Advanced Materials Society, 3, (3), 149-160, (2015)
   

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Molecular Imprinting, 3, (1), 55-64, (2015)
   

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Analyst, 140, (9), 3113-3120, (2015)
   

Wren SP et al., Computational Design and Fabrication of Optical Fibre Fluorescent Chemical Probes for the Detection of Cocaine.
Journal of Lightwave Technology, 33, (12), 2572-2579, (2015)
   

Cáceres C et al., Does size matter? Study of performance of pseudo-ELISAs based on molecularly imprinted polymer nanoparticles prepared for analytes of different sizes.
Analyst, 141, (4), 1405-1412, (2016)
   

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Macromolecular Rapid Communications, 37, (24), 2011-2016, (2016)
   

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In: Molecularly Imprinted Catalysts: Principles, Syntheses and Applications, Li SJ, Cao SS, Piletsky SA, Turner APF (Eds.) Elsevier: Amsterdam, Ch. 1, 1-17, (2016)
   

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Sensors and Actuators B: Chemical, 229, 174-180, (2016)
   

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Applied Surface Science, 406, 115-121, (2017)
   

Karim K et al., A Protocol for the Computational Design of High Affinity Molecularly Imprinted Polymer Synthetic Receptors.
Global Journal of Biotechnology and Biomaterial Science, 3, (1), 001-007, (2017)
   

Piletska E et al., Biomimetic Silica Nanoparticles Prepared by a Combination of Solid-Phase Imprinting and Ostwald Ripening.
Scientific Reports, 7, (1), ArticleNo11537-(2017)
   

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Chemical Communications, 53, (11), 1793-1796, (2017)
   

Viveiros R et al., Development of a molecularly imprinted polymer for a pharmaceutical impurity in supercritical CO2: Rational design using computational approach.
Journal of Cleaner Production, 168, 1025-1031, (2017)
   

Altintas Z et al., Corrigendum to "NanoMIP based optical sensor for pharmaceuticals monitoring" [Sens. Actuators B: Chem. 213 (2015) 305-313].
Sensors and Actuators B: Chemical, 277, 679-(2018)
   

Munawar H et al., Molecularly imprinted polymer nanoparticle-based assay (MINA): application for fumonisin B1 determination.
Analyst, 143, (14), 3481-3488, (2018)
   

Piletsky SS et al., A Novel Assay Format as an Alternative to ELISA: MINA Test for Biotin.
ChemNanoMat, 4, (12), 1214-1222, (2018)
   

Settipani J et al., Theoretical aspects of peptide imprinting: screening of MIP (virtual) binding sites for their interactions with amino acids, di- and tripeptides.
Journal of the Chinese Advanced Materials Society, 6, (3), 301-310, (2018)
   

Ahmad OS et al., Molecularly Imprinted Polymers in Electrochemical and Optical Sensors.
Trends In Biotechnology, 37, (3), 294-309, (2019)
   

Bedwell TS et al., New protocol for optimisation of polymer composition for imprinting of peptides and proteins.
RSC Advances, 9, (48), 27849-27855, (2019)
   

Di Masi S et al., Synthesis and Application of Ion-Imprinted Nanoparticles in Electrochemical Sensors for Copper (II) Determination.
ChemNanoMat, 5, (6), 754-760, (2019)
   

Esen C et al., Highly Efficient Abiotic Assay Formats for Methyl Parathion: Molecularly Imprinted Polymer Nanoparticle Assay as an Alternative to Enzyme-Linked Immunosorbent Assay.
Analytical Chemistry, 91, (1), 958-964, (2019)
   

Garcia Lopez J et al., Application of molecularly imprinted polymer nanoparticles for degradation of the bacterial autoinducer N-hexanoyl homoserine lactone.
Chemical Communications, 55, (18), 2664-2667, (2019)
   

Garcia Y et al., Competitive pseudo-ELISA based on molecularly imprinted nanoparticles for microcystin-LR detection in water.
Pure And Applied Chemistry, 91, (10), 1593-1604, (2019)
   

Moczko E et al., Epitope approach in molecular imprinting of antibodies.
Journal of Chromatography B, 1124, 1-6, (2019)
   

Munawar H et al., Determination of Fumonisin B1 in maize using molecularly imprinted polymer nanoparticles-based assay.
Food Chemistry, 298, Article125044-(2019)
   

Yigaimu A et al., Magnetic Molecularly Imprinted Polymer Particles Based Micro-Solid Phase Extraction for the Determination of 4-Nitrophenol in Lake Water.
Macromolecular Research, 27, (11), 1089-1094, (2019)
   

Cowen T et al., Synthetic Mechanism of Molecular Imprinting at the Solid Phase.
Macromolecules, 53, (4), 1435-1442, (2020)
   

Garcia-Cruz A et al., Molecularly imprinted nanoparticles-based assay (MINA) - detection of leukotrienes and insulin.
Analyst, 145, (12), 4224-4232, (2020)
   

Garcia Cruz A et al., Design and fabrication of a smart sensor using in silico epitope mapping and electro-responsive imprinted polymer nanoparticles for determination of insulin levels in human plasma.
Biosensors and Bioelectronics, 169, Article112536-(2020)
   

Guha A et al., Direct detection of small molecules using a nano-molecular imprinted polymer receptor and a quartz crystal resonator driven at a fixed frequency and amplitude.
Biosensors and Bioelectronics, 158, Article112176-(2020)
   

Munawar H et al., Electrochemical determination of fumonisin B1 using a chemosensor with a recognition unit comprising molecularly imprinted polymer nanoparticles.
Sensors and Actuators B: Chemical, 321, Article128552-(2020)
   

Piletska EV et al., Combinatorial screening of polymer nanoparticles for their ability to recognize epitopes of AAV-neutralizing antibodies.
Journal of Molecular Recognition, 33, (4), Article_e2824-(2020)
   

Alanazi K et al., Disposable paracetamol sensor based on electroactive molecularly imprinted polymer nanoparticles for plasma monitoring.
Sensors and Actuators B: Chemical, 329, Article129128-(2021)
   

Piletsky SS et al., Snapshot imprinting: rapid identification of cancer cell surface proteins and epitopes using molecularly imprinted polymers.
Nano Today, 41, Article101304-(2021)
   

Abbott B et al., Use of polymeric solid phase in synthesis of MIP nanoparticles for biotin.
Reactive and Functional Polymers, 170, Article105109-(2022)
   

García Y et al., A magnetic molecularly imprinted nanoparticle assay (MINA) for detection of pepsin.
Reactive and Functional Polymers, 170, Article105133-(2022)
   

Piletsky SS

Piletsky SA et al., Book chapter, MIP-based Sensors, 
In: Molecularly Imprinted Sensors, Li SJ, Ge Y, Piletsky SA, Lunec J (Eds.) Elsevier: Amsterdam, Ch. 14, 339-354, (2012)
   

Piletska E et al., Biomimetic Silica Nanoparticles Prepared by a Combination of Solid-Phase Imprinting and Ostwald Ripening.
Scientific Reports, 7, (1), ArticleNo11537-(2017)
   

Piletsky SS et al., Development of molecularly imprinted polymers specific for blood antigens for application in antibody-free blood typing.
Chemical Communications, 53, (11), 1793-1796, (2017)
   

Piletsky SS et al., A Novel Assay Format as an Alternative to ELISA: MINA Test for Biotin.
ChemNanoMat, 4, (12), 1214-1222, (2018)
   

Piletska EV et al., Combinatorial screening of polymer nanoparticles for their ability to recognize epitopes of AAV-neutralizing antibodies.
Journal of Molecular Recognition, 33, (4), Article_e2824-(2020)
   

Piletsky SS et al., Snapshot imprinting: rapid identification of cancer cell surface proteins and epitopes using molecularly imprinted polymers.
Nano Today, 41, Article101304-(2021)
   

Abbott B et al., Use of polymeric solid phase in synthesis of MIP nanoparticles for biotin.
Reactive and Functional Polymers, 170, Article105109-(2022)
   

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Sooraj MP et al., CuNPs decorated molecular imprinted polymer on MWCNT for the electrochemical detection of l-DOPA.
Arabian Journal of Chemistry, 13, (1), 2483-2495, (2020)
   

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Al-Kindy SMZ et al., Fluorimetric determination of aluminium using Sequential Injection Analysis (SIA): State of our art and future developments.
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International Journal of Biological Macromolecules, 101, 837-844, (2017)
   

Velempini T et al., Application of a Polypyrrole/Carboxy Methyl Cellulose Ion Imprinted Polymer in the Electrochemical Detection of Mercury in Water.
Electroanalysis, 30, (11), 2612-2619, (2018)
   

Velempini T et al., Carboxymethyl cellulose thiol-imprinted polymers: Synthesis, characterization and selective Hg(II) adsorption.
Journal of Environmental Sciences, 79, 280-296, (2019)
   

Piloto AM

Piloto AM et al., Plastic antibodies tailored on quantum dots for an optical detection of myoglobin down to the femtomolar range.
Scientific Reports, 8, (1), ArticleNo4944-(2018)
   

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Sensors and Actuators B: Chemical, 304, Article127343-(2020)
   

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Díaz-García ME et al., Combinatorial solid-phase organic synthesis for developing materials with molecular recognition properties.
TrAC Trends in Analytical Chemistry, 25, (2), 112-121, (2006)
   

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Journal of Materials Science, 51, (12), 5651-5663, (2016)
   

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Gómez-Pineda LE et al., Quantum Chemical Calculations on the Interaction between Flavonol and Functional Monomers (Methacrylic Acid and 4-Vinylpyridine) in Molecularly Imprinted Polymers.
Molecules, 15, (6), 4017-4032, (2010)
   

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Reactive and Functional Polymers, 71, (4), 402-408, (2011)
   

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Methods and Applications in Fluorescence, 4, (4), ArticleNo045003-(2016)
   

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Salvador JP et al., Book chapter, Application of bioassays/biosensors for the analysis of pharmaceuticals in environmental samples, 
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Journal of Molecular Catalysis B: Enzymatic, 84, 55-61, (2012)
   

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Separation Science and Technology, 37, (12), 2839-2857, (2002)
   

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Chemistry Letters, 31, (2), 202-203, (2002)
   

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Chemistry Letters, 32, (6), 530-531, (2003)
   

Ping H

Zhao L et al., Book chapter, Application of Molecular Imprinting Technique in Organophosphorus Pesticides Detection, 
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Ping JF

Zhang C et al., A disposable electrochemical sensor based on electrospinning of molecularly imprinted nanohybrid films for highly sensitive determination of the organotin acaricide cyhexatin.
Microchimica Acta, 186, (8), Article504-(2019)
   

Ping L

Ping L et al., Studies on the preparation of L-2-chloromandelic acid-imprinted polymer and its selective binding characteristics.
Acta Polymerica Sinica, (5), 724-727, (2003)
   

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Sensors, 18, (3), ArticleNo767-(2018)
   

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Mena ML et al., Molecularly imprinted polymers for on-line preconcentration by solid phase extraction of pirimicarb in water samples.
Analytica Chimica Acta, 451, (2), 297-304, (2002)
   

Mena ML et al., Molecularly imprinted polymers for on-line clean up and preconcentration of chloramphenicol prior to its voltammetric determination.
Analytical and Bioanalytical Chemistry, 376, (1), 18-25, (2003)
   

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Analytica Chimica Acta, 539, (1-2), 125-132, (2005)
   

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Journal of Pharmaceutical and Biomedical Analysis, 40, (2), 281-286, (2006)
   

Guzmán-Vázquez de Prada A et al., Molecularly imprinted polymer solid-phase extraction coupled to square wave voltammetry at carbon fibre microelectrodes for the determination of fenbendazole in beef liver.
Analytical and Bioanalytical Chemistry, 388, (1), 227-234, (2007)
   

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Analytica Chimica Acta, 960, 1-17, (2017)
   

Pingzhu H

Xu ZX et al., Study on an on-line molecularly imprinted solid-phase extraction coupled to high-performance liquid chromatography for separation and determination of trace estrone in environment.
Analytical and Bioanalytical Chemistry, 393, (4), 1273-1279, (2009)
   

Pink DL

Piletska EV et al., Magnetic high throughput screening system for the development of nano-sized molecularly imprinted polymers for controlled delivery of curcumin.
Analyst, 140, (9), 3113-3120, (2015)
   

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Dergunov SA et al., Functionalization of Imprinted Nanopores in Nanometer-Thin Organic Materials.
Angewandte Chemie International Edition, 47, (43), 8264-8267, (2008)
   

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Carboni D et al., Molecularly imprinted La-doped mesoporous titania films with hydrolytic properties toward organophosphate pesticides.
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Rocío-Bautista P et al., Book chapter, Solid-Phase Microextraction Coatings Based on Tailored Materials: Metal-Organic Frameworks and Molecularly Imprinted Polymers, 
In: Advanced Coating Materials, Li L, Yang Q (Eds.) Scrivener Publishing: Beverly, Ch. 11, 317-347, (2019)
   

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Langmuir, 25, (10), 5602-5608, (2009)
   

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Pinto MM

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Symmetry, 9, (10), ArticleNo206-(2017)
   

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Pintor J

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Piotto C

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Cenci L et al., Synthesis and characterization of peptide-imprinted nanogels of controllable size and affinity.
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Piovesana S

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Toxins, 11, (9), ArticleNo493-(2019)
   

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Piperno S et al., Immobilization of Molecularly Imprinted Polymer Nanoparticles in Electrospun Poly(vinyl alcohol) Nanofibers.
Langmuir, 27, (5), 1547-1550, (2011)
   

Piramoon M

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Journal of Applied Polymer Science, 128, (3), 1557-1562, (2013)
   

Pirard JP

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Pirayesh S

Nezhadali A et al., Computer-assisted sensor design and analysis of 2-aminobenzimidazole in biological model samples based on electropolymerized-molecularly imprinted polypyrrole modified pencil graphite electrode.
Sensors and Actuators B: Chemical, 185, 17-23, (2013)
   

Pirdadeh-Beiranvand M

Pirdadeh-Beiranvand M et al., Magnetic molecularly imprinted electrospun nanofibers for selective extraction of nilotinib from human serum.
Analytical and Bioanalytical Chemistry, 412, (7), 1629-1637, (2020)
   

Pires BC

da Silva RCS et al., Assessment of surfactants on performance of molecularly imprinted polymer toward adsorption of pharmaceutical.
Journal of Environmental Chemical Engineering, 7, (2), Article103037-(2019)
   

de Oliveira HL et al., Microextraction by packed sorbent using a new restricted molecularly imprinted polymer for the determination of estrogens from human urine samples.
Microchemical Journal, 150, Article104162-(2019)
   

de Oliveira HL et al., Novel restricted access material combined to molecularly imprinted polymer for selective magnetic solid-phase extraction of estrogens from human urine.
Microchemical Journal, 149, Article104043-(2019)
   

Pires CTGVMT

de Oliviera EC et al., Why are carbon molecular sieves interesting?
Journal of the Brazilian Chemical Society, 17, (1), 16-29, (2006)
   

Pires IMR

Clausen DN et al., Improved selective cholesterol adsorption by molecularly imprinted poly(methacrylic acid)/silica (PMAA-SiO2) hybrid material synthesized with different molar ratios.
Materials Science and Engineering: C, 44, 99-108, (2014)
   

Piri F

Farid MM et al., Molecular imprinting method for fabricating novel glucose sensor: Polyvinyl acetate electrode reinforced by MnO2/CuO loaded on graphene oxide nanoparticles.
Food Chemistry, 194, 61-67, (2016)
   

Karimian R et al., Magnetic Molecularly Imprinted Nanoparticles for the Solid-Phase Extraction of Diazinon from Aqueous Medium, Followed Its Determination by HPLC-UV.
Journal of Applied Biotechnology Reports, 4, (1), 533-539, (2017)
   

Mostafavi M et al., A new diclofenac molecularly imprinted electrochemical sensor based upon a polyaniline/reduced graphene oxide nano-composite.
Biosensors and Bioelectronics, 122, 160-167, (2018)
   

Piri S et al., Imprinted Azorubine electrochemical sensor based upon composition of MnO2 and 1-naphthylamine on graphite nanopowder.
Journal of the Iranian Chemical Society, 15, (12), 2713-2720, (2018)
   

Saadati F et al., Synthesis and characterization of nanostructure molecularly imprinted polyaniline/graphene oxide composite as highly selective electrochemical sensor for detection of p-nitrophenol.
Journal of the Taiwan Institute of Chemical Engineers, 86, 213-221, (2018)
   

Piri S

Piri S et al., Imprinted Azorubine electrochemical sensor based upon composition of MnO2 and 1-naphthylamine on graphite nanopowder.
Journal of the Iranian Chemical Society, 15, (12), 2713-2720, (2018)
   

Piri-Moghadam H

Bagheri H et al., Towards greater mechanical, thermal and chemical stability in solid-phase microextraction.
TrAC Trends in Analytical Chemistry, 34, (1), 126-139, (2012)
   

Bagheri H et al., Sol-gel-based molecularly imprinted xerogel for capillary microextraction.
Analytical and Bioanalytical Chemistry, 404, (5), 1597-1602, (2012)
   

Bagheri H et al., Application of sol-gel based molecularly imprinted xerogel for on-line capillary microextraction of fentanyl from urine and plasma samples.
Analytical Methods, 5, (24), 7096-7101, (2013)
   

Bagheri H et al., Electroentrapment of Polyaniline in [3-(2, 3-Epoxypropoxy)propyl]trimethoxysilane-Derived Xerogel: A Facile Methodology Towards Molecularly Imprinted Xerogels.
Chromatographia, 77, (17-18), 1185-1194, (2014)
   

Bagheri H et al., Recent advances in capillary microextraction.
TrAC Trends in Analytical Chemistry, 73, 64-80, (2015)
   

Piro B

Devkota L et al., Electrochemical determination of tetracycline using AuNP-coated molecularly imprinted overoxidized polypyrrole sensing interface.
Electrochimica Acta, 270, 535-542, (2018)
   

Pirouzmand M

Nezhadali A et al., Determination of optimal adsorption-desorption conditions for selective removal of Ni(II) from petrochemical samples using ion imprinted nanosorbent.
European Journal of Chemistry, 9, (1), 57-62, (2018)
   

Pirzada M

Pirzada M et al., Cancer biomarker detection in human serum samples using nanoparticle decorated epitope-mediated hybrid MIP.
Biosensors and Bioelectronics, 166, Article112464-(2020)
   

Pisani M

Parlapiano M et al., Selective removal of contaminants of emerging concern (CECs) from urban water cycle via Molecularly Imprinted Polymers (MIPs): Potential of upscaling and enabling reclaimed water reuse.
Journal of Environmental Chemical Engineering, 9, (1), Article105051-(2021)
   

Pisano R

Chiarello M et al., Effect of Polymerization Time on the Binding Properties of Ciprofloxacin-Imprinted nanoMIPs Prepared by Solid-Phase Synthesis.
Polymers, 13, (16), ArticleNo2656-(2021)
   

Pisarev O

Polyakova I et al., Surface molecularly imprinted organic-inorganic polymers having affinity sites for cholesterol.
Reactive and Functional Polymers, 109, 88-98, (2016)
   

Pisarev OA

Ezhova NM et al., Sorption of lysine by molecularly imprinted carboxyl sorbents.
Applied Biochemistry and Microbiology, 45, (2), 221-225, (2009)
   

Ezhova NM et al., Molecularly imprinted hydrophilic polymer sorbents for selective sorption of erythromycin.
Applied Biochemistry and Microbiology, 47, (6), 635-639, (2011)
   

Leshchinskaya AP et al., Selective sorption of uric acid by novel molecularly imprinted polymers.
Molecular Imprinting, 1, (1), 17-26, (2013)
   

Garkushina IS et al., Molecularly imprinted polymeric sorbents for selective sorption of erythromycin.
Russian Journal of Applied Chemistry, 87, (8), 1126-1132, (2014)
   

Leshchinskaya AP et al., Synthesis and sorption properties of polymeric sorbents molecularly imprinted with uric acid.
Russian Journal of Applied Chemistry, 88, (5), 820-825, (2015)
   

Polyakova IV et al., Polymer sorbent with the properties of an artificial cholesterol receptor.
Russian Journal of Physical Chemistry A, 89, (2), 288-290, (2015)
   

Vlakh EG et al., Preparation and characterization of macroporous monoliths imprinted with erythromycin.
Journal of Separation Science, 38, (16), 2763-2771, (2015)
   

Leshchinskaya AP et al., Synthesis and characterization of 2-hydroxyethyl methacrylate-ethylene glycol dimethacrylate polymeric granules intended for selective removal of uric acid.
Reactive and Functional Polymers, 102, 101-109, (2016)
   

Polyakova IV et al., Synthesis and properties of polymeric and organo-inorganic amphiphilic sorbents molecularly imprinted with cholesterol.
Russian Journal of Applied Chemistry, 88, (10), 1617-1626, (2016)
   

Garkushina IS et al., Frontal dynamics of erythromycin sorption on monolithic molecularly imprinted polymer sorbents.
Russian Journal of Physical Chemistry A, 91, (11), 2225-2229, (2017)
   

Pisarev OA et al., Molecularly imprinted polymers based on methacrylic acid and ethyleneglycol dimethacrylate for l-lysine recognition.
Reactive and Functional Polymers, 130, 98-110, (2018)
   

Piscopo L

Piscopo L et al., Uniformly sized molecularly imprinted polymers (MIPs) for 17b-estradiol.
Macromolecular Chemistry And Physics, 203, (10-11), 1532-1538, (2002)
   

Pishro KA

Javanbakht M et al., Extraction and purification of penicillin G from fermentation broth by water-compatible molecularly imprinted polymers.
Materials Science and Engineering: C, 32, (8), 2367-2373, (2012)
   

Pisman Y

Hitrik M et al., Speciation of nanoscale objects by nanoparticle imprinted matrices.
Nanoscale, 8, (29), 13934-13943, (2016)
   

Pissawong T

Piacham T et al., Synthesis and Theoretical Study of Molecularly Imprinted Nanospheres for Recognition of Tocopherols.
Molecules, 14, (8), 2985-3002, (2009)
   

Pissetti FL

Villis PCM et al., Copper(II) Trace Determination in Aqueous/Ethanolic Medium Using an Ionic Imprinted Hybrid.
International Journal of Electrochemical Science, 13, 10564-10586, (2018)
   

Villis PCM et al., Diethylenetriamine ion-imprinted silica gel for copper determination in tap water.
Journal of Applied Electrochemistry, 48, (8), 867-883, (2018)
   

Pistorio A

Cennamo N et al., Proceeding, A novel chemical optical sensor based on molecularly imprinted polymer, optical fibers and inkjet printing technology, 
ArticleNo8409619, (2018)
   

Cennamo N et al., A Novel Sensing Methodology to Detect Furfural in Water, Exploiting MIPs, and Inkjet-Printed Optical Waveguides.
IEEE Transactions on Instrumentation and Measurement, 68, (5), 1582-1589, (2019)
   

Piszkiewicz S

Piszkiewicz S et al., Molecularly-imprinted nanoparticles that recognize Naja mossambica cytotoxins: binding studies and biological effects.
Chemical Communications, 49, (53), 5954-5956, (2013)
   

Pitaloka I

Pratiwi R et al., Comparison of Bulk and Precipitation Polymerization Method of Synthesis Molecular Imprinted Solid Phase Extraction for Atenolol using Methacrylic Acid.
Journal of Young Pharmacists, 11, (1), 12-16, (2019)
   

Piticescu RM

Motia S et al., Development of a novel electrochemical sensor based on electropolymerized molecularly imprinted polymer for selective detection of sodium lauryl sulfate in environmental waters and cosmetic products.
Journal of Electroanalytical Chemistry, 823, 553-562, (2018)
   

Pitkänen J

Lieberzeit PA et al., Artificial receptor layers for detecting chemical and biological threats.
Procedia Engineering, 5, 381-384, (2010)
   

Findeisen A et al., Artificial receptor layers for detecting chemical and biological agent mimics.
Sensors and Actuators B: Chemical, 170, 196-200, (2012)
   

Pittet PA

Froidevaux P et al., Ion-imprinted resin for use in an automated solid phase extraction system for determining 90Sr in environmental and human samples.
Journal of Radioanalytical and Nuclear Chemistry, 330, (3), 797-804, (2021)
   

Piu L

Dickert FL et al., Sensors based on fingerprints of neutral and ionic analytes in polymeric materials.
Sensors and Actuators B: Chemical, 76, (1-3), 295-298, (2001)
   

Pividori Gurgo MI

Khan S et al., Synthesis and characterization of magnetic-molecularly imprinted polymers for the HPLC-UV analysis of ametryn.
Reactive and Functional Polymers, 122, 175-182, (2018)
   

Pividori MI

Hussain S et al., A novel core@shell magnetic molecular imprinted nanoparticles for selective determination of folic acid in different food samples.
Reactive and Functional Polymers, 106, 51-56, (2016)
   

Uzuriaga-Sánchez RJ et al., Magnetically separable polymer (Mag-MIP) for selective analysis of biotin in food samples.
Food Chemistry, 190, 460-467, (2016)
   

Ben Aissa A et al., Magnetic molecularly imprinted polymer for the isolation and detection of biotin and biotinylated biomolecules.
Biosensors and Bioelectronics, 88, 101-108, (2017)
   

Franco JH et al., Assessment of molecularly imprinted polymers (MIPs) in the preconcentration of disperse red 73 dye prior to photoelectrocatalytic treatment.
Environmental Science and Pollution Research, 24, (4), 4134-4143, (2017)
   

Uzuriaga-Sánchez RJ et al., Synthesis of a new magnetic-MIP for the selective detection of 1-chloro-2, 4-dinitrobenzene, a highly allergenic compound.
Materials Science and Engineering: C, 74, 365-373, (2017)
   

Hassan AHA et al., Electrochemical sensing of methyl parathion on magnetic molecularly imprinted polymer.
Biosensors and Bioelectronics, 118, 181-187, (2018)
   

Moura SL et al., Theoretical and experimental study for the biomimetic recognition of levothyroxine hormone on magnetic molecularly imprinted polymer.
Biosensors and Bioelectronics, 107, 203-210, (2018)
   

Ruiz-Córdova GA et al., Electrochemical sensing using magnetic molecularly imprinted polymer particles previously captured by a magneto-sensor.
Talanta, 181, 19-23, (2018)
   

Hassan AHA et al., Biomimetic magnetic sensor for electrochemical determination of scombrotoxin in fish.
Talanta, 194, 997-1004, (2019)
   

Marfà J et al., Magnetic-molecularly imprinted polymers in electrochemical sensors and biosensors.
Analytical and Bioanalytical Chemistry, 413, (24), 6141-6157, (2021)
   

Santos ACF et al., Development of magnetic nanoparticles modified with new molecularly imprinted polymer (MIPs) for selective analysis of glutathione.
Sensors and Actuators B: Chemical, 344, Article130171-(2021)
   

Piwonska A

Gadzala-Kopciuch R et al., Applications of Molecularly Imprinted Polymers for Isolation of Estrogens from Environmental Water Samples.
Current Analytical Chemistry, 12, (4), 315-323, (2016)
   

Piwowarczyk M

Sobolewski P et al., Polymer-Graphene Nanocomposite Materials for Electrochemical Biosensing.
Macromolecular Bioscience, 16, (7), 944-957, (2016)
   

Piyamongkol S

Saenkasa Z et al., Comparison of molecular adsorption ability of the molecularly imprinted polymers prepared by ethylene glycol dimethacrylate and trimethylolpropane trimethacrylate as cross linkers.
Journal of Applied Polymer Science, 103, (4), 2325-2330, (2007)
   

Pizem H

Pogorelova SP et al., Development of ion-sensitive field-effect transistor-based sensors for benzylphosphonic acids and thiophenols using molecularly imprinted TiO2 films.
Analytica Chimica Acta, 504, (1), 113-122, (2004)
   

Pizio O

Rzysko W et al., Theory of adsorption in a polydisperse templated porous material: Hard sphere systems.
Journal of Chemical Physics, 116, (10), 4286-4292, (2002)
   

Pizzariello A

Pizzariello A et al., A solid binding matrix/molecularly imprinted polymer-based sensor system for the determination of clenbuterol in bovine liver using differential-pulse voltammetry.
Sensors and Actuators B: Chemical, 76, (1-3), 286-294, (2001)
   

Pizzolato TM

Gros M et al., Trace level determination of [beta]-blockers in waste waters by highly selective molecularly imprinted polymers extraction followed by liquid chromatography-quadrupole-linear ion trap mass spectrometry.
Journal of Chromatography A, 1189, (1-2), 374-384, (2008)
   

Plachká K

Svoboda P et al., Development of matrix effect-free MISPE-UHPLC-MS/MS method for determination of lovastatin in Pu-erh tea, oyster mushroom, and red yeast rice.
Journal of Pharmaceutical and Biomedical Analysis, 140, 367-376, (2017)
   

Plankalayil J

Borchers K et al., Book chapter, Biomimetic Nanoparticles Providing Molecularly Defined Binding Sites - Protein-Featuring Structures versus Molecularly Imprinted Polymers, 
In: Cellular and Biomolecular Recognition: Synthetic and Non-Biological Molecules, Jelinek R (Ed.) Wiley-VCH: Weinheim, Ch. 2, 31-67, (2009)
   

Plano B

Aouled NO et al., Proceeding, Love wave sensor based on thin film molecularly imprinted polymer : MIP layer morphology and nucleosides analogs detection, 
1-4, (2013)
   

Hallil H et al., Proceeding, SH-SAW sensing system based on thin film molecularly imprinted polymer: Study of Volatile organic compounds adsorption, 
Art No 6676129, (2013)
   

Lebal N et al., Nucleosides analogues recognition by molecularly imprinted polymer-coated Love wave sensor.
Micro and Nano Letters, 8, (10), 563-566, (2013)
   

Lebal N et al., Proceeding, Association of a Love wave sensor to thin film molecularly imprinted polymers for nucleosides analogs detection, 
550-553, (2013)
   

Hallil H et al., Love Wave Sensor Based on Thin Film Molecularly Imprinted Polymer: Study of VOCs Adsorption.
Journal of Integrated Circuits and Systems, 9, (2), 118-122, (2014)
   

Dejous C et al., Love Acoustic Wave-Based Devices and Molecularly-Imprinted Polymers as Versatile Sensors for Electronic Nose or Tongue for Cancer Monitoring.
Sensors, 16, (6), ArticleNo915-(2016)
   

Ayari MG et al., Synthesis of imprinted hydrogel microbeads by inverse Pickering emulsion to controlled release of adenosine 5'-monophosphate.
Materials Science and Engineering: C, 101, 254-263, (2019)
   

Plata MR

Plata MR et al., State-of-the-Art of (Bio)Chemical Sensor Developments in Analytical Spanish Groups.
Sensors, 10, (4), 2511-2576, (2010)
   

Plata-García V

Barciela-Alonso MC et al., Ionic imprinted polymer based solid phase extraction for cadmium and lead pre-concentration/determination in seafood.
Microchemical Journal, 114, 106-110, (2014)
   

Plausinaitis D

Ratautaite V et al., Characterization of Caffeine-Imprinted Polypyrrole by a Quartz Crystal Microbalance and Electrochemical Impedance Spectroscopy.
Sensors and Actuators B: Chemical, 212, 63-71, (2015)
   

Plausinaitis D et al., Evaluation of electrochemical quartz crystal microbalance based sensor modified by uric acid-imprinted polypyrrole.
Talanta, 220, Article121414-(2020)
   

Player TN

Kubo H et al., Chiral recognition of octadentate Na+ complex with tetra-armed cyclen by molecularly imprinted polymers.
Analytica Chimica Acta, 504, (1), 137-140, (2004)
   

Pleasants M

Ashley J et al., Synthesis of Molecularly Imprinted Polymer Nanoparticles for [alpha]-Casein Detection Using Surface Plasmon Resonance as a Milk Allergen Sensor.
ACS Sensors, 3, (2), 418-424, (2018)
   

D’Aurelio R et al., Development of a NanoMIPs-SPR-Based Sensor for [beta]-Lactoglobulin Detection.
Chemosensors, 8, (4), ArticleNo94-(2020)
   

Pleiss J

Juhl PB et al., Engineering of Candida antarctica lipase B for hydrolysis of bulky carboxylic acid esters.
Journal of Biotechnology, 150, (4), 474-480, (2010)
   

Plesz K

Plesz K et al., Synthesis of Molecularly Imprinted Copolymer and its Application as a SPE Sorbent for Preconcentration of Metoprolol and Vitamin B6 from Water.
Journal of Liquid Chromatography & Related Technologies, 32, (13), 1831-1846, (2009)
   

Plewa A

Plewa A et al., Molecularly Imprinted Hybrid Adsorbents for Adenine and Adenosine-5'-triphosphate.
Journal of Medicinal Chemistry, 55, (20), 8712-8720, (2012)
   

Plieva F

Le Noir M et al., Macroporous molecularly imprinted polymer/cryogel composite systems for the removal of endocrine disrupting trace contaminants.
Journal of Chromatography A, 1154, (1-2), 158-164, (2007)
   

Le Noir N et al., Book chapter, Removal of Endocrine Disrupting Contaminants from Water Using Macroporous Molecularly Imprinted Selective Media, 
In: New Membranes and Advanced Materials for Wastewater Treatment, Mueller A, Guieysse B, Sarkar A (Eds.) American Chemical Society: Washington DC, 25-51, (2009)
   

Le NM et al., Book chapter, Removal of Endocrine Disrupting Contaminants from Water Using Macroporous Molecularly Imprinted Selective Media, 
In: New Membranes and Advanced Materials for Wastewater Treatment, Mueller A, Guieysse B, Sarkar A (Eds.) American Chemical Society: Washington DC, Ch. 3, 25-51, (2009)
   

Plieva FM

Le Noir M et al., Removal of endocrine-disrupting compounds from water using macroporous molecularly imprinted selective media.
Abstracts of Papers of the American Chemical Society, 235, (ENVR), 21-(2008)
   

Plieva FM et al., Macroporous Gel Particles As Novel Sorbent Materials: Rational Design.
Industrial & Engineering Chemistry Research, 47, (12), 4131-4141, (2008)
   

Le Noir M et al., Removal of endocrine-disrupting compounds from water using macroporous molecularly imprinted cryogels in a moving-bed reactor.
Journal of Separation Science, 32, (9), 1471-1479, (2009)
   

Plotka JM

Plotka JM et al., Pharmaceutical and forensic drug applications of chiral supercritical fluid chromatography.
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Plotka-Wasylka J et al., Miniaturized solid-phase extraction techniques.
TrAC Trends in Analytical Chemistry, 73, 19-38, (2015)
   

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TrAC Trends in Analytical Chemistry, 77, 23-43, (2016)
   

Plotka-Wasylka J et al., New Polymeric Materials for Solid Phase Extraction.
Critical Reviews in Analytical Chemistry, 47, (5), 373-383, (2017)
   

Plotka-Wasylka J et al., Book chapter, Miniaturized Solid Phase Extraction, 
In: Green Extraction Techniques Principles, Advances and Applications, Ibáñez E, Cifuentes A (Eds.) Elsevier: Ch. 10, 279-318, (2017)
   

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TrAC Trends in Analytical Chemistry, 102, 91-102, (2018)
   

Plotnikova OG

Medyantseva EP et al., A procedure for determining 2, 4-dichlorophenoxyacetic acid using immobilized molecular imprinted polymers and an amperometric biosensor.
Russian Journal of Applied Chemistry, 83, (2), 287-292, (2010)
   

Pluhar B

Pluhar B et al., Surface imprinting of pepsin via miniemulsion polymerization.
Journal of Materials Chemistry B, 1, (40), 5489-5495, (2013)
   

Pluhar B et al., Advanced Evaluation Strategies for Protein-Imprinted Polymer Nanobeads.
Macromolecular Bioscience, 15, (11), 1507-1511, (2015)
   

Pluhar B et al., Binding performance of pepsin surface-imprinted polymer particles in protein mixtures.
Journal of Materials Chemistry B, 3, (30), 6248-6254, (2015)
   

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Sensors and Actuators B: Chemical, 280, 272-279, (2019)
   

Plunkett S

Plunkett S et al., Book chapter, Novel metal-affinity adsorbents prepared by template polymerization, 
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Plunkett SD

Mallik S et al., Towards materials for the specific recognition and separation of proteins.
New Journal of Chemistry, 18, 299-304, (1994)
   

Plunkett SD et al., Molecularly imprinted polymers on silica: selective supports for high-performance ligand-exchange chromatography.
Journal of Chromatography A, 708, (1), 19-29, (1995)
   

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Biotechnology and Bioengineering, 48, (5), 431-436, (1995)
   

Pobedinskas P

Croux D et al., Development of multichannel quartz crystal microbalances for MIP-based biosensing.
physica status solidi (a), 209, (5), 892-899, (2012)
   

Poblocka M

Ekpenyong-Akiba AE et al., Detecting and targeting senescent cells using molecularly imprinted nanoparticles.
Nanoscale Horizons, 4, (3), 757-768, (2019)
   

Piletsky SS et al., Snapshot imprinting: rapid identification of cancer cell surface proteins and epitopes using molecularly imprinted polymers.
Nano Today, 41, Article101304-(2021)
   

Pobozy E

Pyrzynska K et al., On-line coupling of solid phase extraction sample processing with high-performance liquid chromatography.
Critical Reviews in Analytical Chemistry, 32, (3), 227-243, (2002)
   

Kowalski D et al., Flow-Injection Preconcentration of Chloramphenicol Using Molecularly Imprinted Polymer for HPLC Determination in Environmental Samples.
Journal of Automated Methods and Management in Chemistry, 2011, Art. No. 143416-(2011)
   

Pochin K

Jaiswal L et al., A thalidomide templated molecularly imprinted polymer that promotes a biologically active chiral entity tagged in colon carcinoma cells and protein-related immune activation.
Process Biochemistry, 50, (12), 2035-2050, (2015)
   

Pocock J

Altintas Z et al., Comparative investigations for adenovirus recognition and quantification: Plastic or natural antibodies?
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Poliwoda A et al., Application of Molecular Imprinted Polymers for Selective Solid Phase Extraction of Bisphenol A.
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Journal of Chromatography A, 1599, 9-16, (2019)
   

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Heidt B et al., Biomimetic Bacterial Identification Platform Based on Thermal Transport Analysis Through Surface Imprinted Polymers: From Proof of Principle to Proof of Application.
physica status solidi (a), 216, (12), Article1800688-(2019)
   

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Polyakova I et al., Surface molecularly imprinted organic-inorganic polymers having affinity sites for cholesterol.
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Ezhova NM et al., Sorption of lysine by molecularly imprinted carboxyl sorbents.
Applied Biochemistry and Microbiology, 45, (2), 221-225, (2009)
   

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Russian Journal of Physical Chemistry A, 89, (2), 288-290, (2015)
   

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Pisarev OA et al., Molecularly imprinted polymers based on methacrylic acid and ethyleneglycol dimethacrylate for l-lysine recognition.
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Lokhova LO et al., Molecular imprinting of penicillin V in polyelectrolyte layers deposited onto a track-etched membrane.
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Poma A et al., Book chapter, Plastic Antibodies, 
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Poma A et al., Solid-Phase Synthesis of Molecularly Imprinted Polymer Nanoparticles with a Reusable Template-"Plastic Antibodies".
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Poma A et al., Generation of Novel Hybrid Aptamer-Molecularly Imprinted Polymeric Nanoparticles.
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Poma A et al., Generation of Novel Hybrid Aptamer-Molecularly Imprinted Polymeric Nanoparticles.
Advanced Materials, 27, (4), 750-758, (2015)
   

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Biomaterials Science, 4, (2), 281-287, (2016)
   

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Canfarotta F et al., Specific Drug Delivery to Cancer Cells with Double-Imprinted Nanoparticles against Epidermal Growth Factor Receptor.
Nano Letters, 18, (8), 4641-4646, (2018)
   

Bedwell TS et al., New protocol for optimisation of polymer composition for imprinting of peptides and proteins.
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Liu R et al., Advances in Molecularly Imprinted Polymers as Drug Delivery Systems.
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Pomastowski P

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Journal of Separation Science, 37, (21), 3094-3105, (2014)
   

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Vaneckova T et al., Molecularly imprinted polymers coupled to mass spectrometric detection for metallothionein sensing.
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Pompa PP

Turco A et al., Preparation and characterization of molecularly imprinted mussel inspired film as antifouling and selective layer for electrochemical detection of sulfamethoxazole.
Sensors and Actuators B: Chemical, 255, (Part 3), 3374-3383, (2018)
   

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Pompeu Prado Moreira LF et al., Electrochemical sensor based on reduced graphene oxide and molecularly imprinted poly(phenol) for d-xylose determination.
Talanta, 208, Article120379-(2020)
   

Ponchel A

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Kaulpiboon J et al., Molecular imprinting of cyclodextrin glycosyltransferases from Paenibacillus sp A11 and Bacillus macerans with [gamma]-cyclodextrin.
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Kaulpiboon J et al., Altered product specificity of a cyclodextrin glycosyltransferase by molecular imprinting with cyclomaltododecaose.
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Ponnapati R

Apodaca DC et al., Electropolymerized Molecularly Imprinted Polymer Film: EIS Sensing of Bisphenol A.
Macromolecules, 44, (17), 6669-6682, (2011)
   

Pernites R et al., Electropolymerization molecularly imprinted polymer (E-MIP) SPR sensing of drug molecules: Pre-polymerization complexed terthiophene and carbazole electroactive monomers.
Biosensors and Bioelectronics, 26, (5), 2766-2771, (2011)
   

Ponnapati RR

Apodaca DC et al., Electropolymerized Molecularly Imprinted Polymer Films of a Bis-Terthiophene Dendron: Folic Acid Quartz Crystal Microbalance Sensing.
ACS Applied Materials & Interfaces, 3, (2), 191-203, (2010)
   

Pernites RB et al., Surface Plasmon Resonance (SPR) Detection of Theophylline via Electropolymerized Molecularly Imprinted Polythiophenes.
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Pons J

Zamora-Gálvez A et al., Magnetic nanoparticle-molecular imprinted polymer: A new impedimetric sensor for tributyltin detection.
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Ponticelli F

Busi E et al., An innovative approach to the design of plastic antibodies: molecular imprinting via a non-polar transition state analogue.
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Pontius H

Bunte G et al., Proceeding, MIP-based low-cost sensor for short-range detection of explosives, 
Schubert H, Rimski-Korsakov A (Eds.), 17-27, (2006)
   

Bunte G et al., Gas phase detection of explosives such as 2, 4, 6-trinitrotoluene by molecularly imprinted polymers.
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Bunte G et al., Trace Detection of Explosives Vapours by Molecularly Imprinted Polymers for Security Measures.
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Poole CF

Poole CF, New trends in solid-phase extraction.
TrAC Trends in Analytical Chemistry, 22, (6), 362-373, (2003)
   

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In: Comprehensive Sampling and Sample Preparation, Pawliszyn J (Ed.) Academic Press: Oxford, Ch. 14, 273-297, (2012)
   

Poole CF, Wiodzimierz Kutner and Piyush Sindhu Sharma (Eds): Molecularly Imprinted Polymers for Analytical Chemistry Applications.
Chromatographia, 81, (12), 1711-1712, (2018)
   

Poole SK

Poole CF et al., Book chapter, 2.14 - Principles and Practice of Solid-Phase Extraction, 
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Poonam D

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Journal of Drug Discovery and Therapeutics, 1, (3), 36-39, (2013)
   

Poorazrang H

Riazi A et al., Fabrication and Characterization of Molecularly Imprinted Microspheres as Highly Effective Sorbent for Fast and Selective Solid Phase Extraction of Nicotinamide in Beef and Wheat Flour Samples.
Journal of Food Science and Technology (Iran), 18, (120), 317-334, (2021)
   

Poorebrahim M

Shoghi E et al., Nanosized aptameric cavities imprinted on the surface of magnetic nanoparticles for high-throughput protein recognition.
Microchimica Acta, 185, (4), ArticleNo241-(2018)
   

Poorgholy N

Mahkam M et al., Imprinted polymers as drug delivery vehicles for anti-inflammatory drugs.
Nature and Science, 9, (5), 163-168, (2011)
   

Poovarodom S

Katz A et al., Design and synthesis of imprinted silica using nanoparticle templates.
Abstracts of Papers of the American Chemical Society, 227, (COLL), 442-442, (2004)
   

Poovarodom S et al., Imprinting silica with gold nanoparticle templates.
Abstracts of Papers of the American Chemical Society, 228, (INOR), 641-641, (2004)
   

Poovarodom S et al., Investigation of the core-shell interface in gold@silica nanoparticles: A silica imprinting approach.
Langmuir, 21, (26), 12348-12356, (2005)
   

Popescu LM

El Alami El Hassani N et al., Development of a highly sensitive and selective molecularly imprinted electrochemical sensor for sulfaguanidine detection in honey samples.
Journal of Electroanalytical Chemistry, 823, 647-655, (2018)
   

Motia S et al., Development of a novel electrochemical sensor based on electropolymerized molecularly imprinted polymer for selective detection of sodium lauryl sulfate in environmental waters and cosmetic products.
Journal of Electroanalytical Chemistry, 823, 553-562, (2018)
   

Popov I

Fireman-Shoresh S et al., Enantioselective, chirally templated sol-gel thin films.
Journal of the American Chemical Society, 127, (8), 2650-2655, (2005)
   

Dmitrienko SG et al., The sorption properties of polymers with molecular imprints of 2, 4-dichlorophenoxyacetic acid synthesized by various methods (Original Russian Text © S.G. Dmitrienko, S.A. Popov, Yu.A. Chumichkina, Yu.A. Zolotov, 2011, published in Zhurnal Fizicheskoi Khimii, 2011, Vol. 85, No. 3, pp. 542–547.).
Russian Journal of Physical Chemistry A, Focus on Chemistry, 85, (3), 472-477, (2011)
   

Popov SA

Popov SA et al., The sorption properties of polymers with molecular imprints of chlorine-containing pesticides.
Russian Journal of Physical Chemistry A, Focus on Chemistry, 83, (4), 552-557, (2009)
   

Medyantseva EP et al., A procedure for determining 2, 4-dichlorophenoxyacetic acid using immobilized molecular imprinted polymers and an amperometric biosensor.
Russian Journal of Applied Chemistry, 83, (2), 287-292, (2010)
   

Popov SA et al., Preconcentration of 2, 4-dichlorophenoxyacetic acid on molecularly imprinted polymers and its subsequent determination by high performance liquid chromatography.
Journal of Analytical Chemistry, 66, (1), 6-10, (2011)
   

Poppe L

Hellner G et al., Novel Sol-Gel Lipases by Designed Bioimprinting for Continuous-Flow Kinetic Resolutions.
Advanced Synthesis & Catalysis, 353, (13), 2481-2491, (2011)
   

Weiser D et al., Bioimprinted lipases in PVA nanofibers as efficient immobilized biocatalysts.
Tetrahedron, 72, (46), 7335-7342, (2016)
   

Porcel-Valenzuela M

Porcel-Valenzuela M et al., Molecularly imprinted silica films prepared by electroassisted deposition for the selective detection of dopamine.
Sensors and Actuators B: Chemical, 222, 63-70, (2016)
   

Porch A

Huckle D et al., Towards an efficient biosensor for the detection of lipopolysaccharide in sepsis using molecularly imprinted polymers.
British Journal of Anaesthesia, 112, (1), 199P-199P, (2014)
   

Porciani F

Ciardelli G et al., Book chapter, Engineering membranes for molecular recognition, 
In: Molecularly Imprinted Polymers-2003, Kofinas P, Sellergren B, Roberts MJ (Eds.) Materials Research Society: Warrendale, Ch. 14, 91-96, (2004)
   

Pordel M

Samizadeh M et al., Preparation of Molecularly Imprinted Polymers Coupled with Magnetic Nanoparticles for the Selective Extraction of Propranolol from Aqueous Solution of Propranolol, Atenolol and Metoprolol.
Journal of Biochemical Technology, 9, (4), 22-27, (2018)
   

Porfireva A

Evtugyn G et al., Molecularly Imprinted Polymerized Methylene Green as a Platform for Electrochemical Sensing of Aptamer-Thrombin Interactions.
Electroanalysis, 21, (11), 1272-1277, (2009)
   

Porgali E

Büyüktuncel E et al., Catechin-molecularly imprinted cryogel for determination of catechin in red wines by HPLC-DAD-fluorescence detector.
Acta Chromatographica, 30, (1), 54-61, (2017)
   

Büyüktuncel E et al., Catechin-molecularly imprinted cryogel for determination of catechin in red wines by HPLC-DAD-fluorescence detector.
Acta Chromatographica, 30, (1), 54-61, (2018)
   

Porntheeraphat S

Rayanasukha Y et al., Non-enzymatic urea sensor using molecularly imprinted polymers surface modified based-on ion-sensitive field effect transistor (ISFET).
Surface and Coatings Technology, 306, (Part A), 147-150, (2016)
   

Porobic I

Porobic I et al., Molecular Recognition of Indole Derivatives by Polymers Imprinted With Indole-3-Acetic Acid: A QSPR Study.
Bioorganic & Medicinal Chemistry, 21, 653-659, (2013)
   

Porras GR

Quirarte-Escalante CA et al., Synthesis of Hybrid Adsorbents Combining Sol-Gel Processing and Molecular Imprinting Applied to Lead Removal from Aqueous Streams.
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Pors A

Dreier J et al., Gold Films with Imprinted Cavities.
Journal of Physical Chemistry Letters, 1, (1), 260-264, (2009)
   

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Porto G

Cennamo N et al., Proceeding, An optical fiber intensity-based sensor configuration for the detection of PFOA in water, 
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Cennamo N et al., Proceeding, Optical chemical fiber sensor for the detection of perfluorinated compounds in water, 
ArticleNo8409736, (2018)
   

Cennamo N et al., A Molecularly Imprinted Polymer on a Plasmonic Plastic Optical Fiber to Detect Perfluorinated Compounds in Water.
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Cennamo N et al., A Simple and Low-Cost Optical Fiber Intensity-Based Configuration for Perfluorinated Compounds in Water Solution.
Sensors, 18, (9), ArticleNo3009-(2018)
   

Cennamo N et al., Proceeding, Water monitoring in smart cities exploiting plastic optical fibers and molecularly imprinted polymers. The case of PFBS detection, 
1-6, (2019)
   

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Chemosensors, 9, (8), ArticleNo218-(2021)
   

Posocco P

Tommasini M et al., Monitoring of Irinotecan in Human Plasma: Sensitive Fluorescent Nanogels by Molecular Imprinting.
ChemRxiv, (2019)
   

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Mitrowska K et al., New high selective sorbents for solid-phase extraction. Molecularly imprinted polymers.
Wiadomosci Chemiczne, 58, (2004)
   

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Analytical Letters, 47, (10), 1634-1649, (2014)
   

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Schwarz LJ et al., Microwave-assisted synthesis of resveratrol imprinted polymers with enhanced selectivity.
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Talanta, 161, 425-436, (2016)
   

Pothier J

Motherwell WB et al., A study of some molecularly imprinted polymers as protic catalysts for the isomerisation of a-pinene oxide to trans-carveol.
Tetrahedron, 60, (14), 3231-3241, (2004)
   

Pothier P

Sykora S et al., Virus-like particles as virus substitutes to design artificial virus-recognition nanomaterials.
Chemical Communications, 51, (12), 2256-2258, (2015)
   

Potter OG

Potter OG et al., Porous polymer monoliths for extraction: Diverse applications and platforms.
Journal of Separation Science, 31, (11), 1881-1906, (2008)
   

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Potterat O et al., Natural products in drug discovery - Concepts and approaches for tracking bioactivity.
Current Organic Chemistry, 10, (8), 899-920, (2006)
   

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Kazemi R et al., Quantifying Interferent Effects on Molecularly Imprinted Polymer Sensors for Per- and Polyfluoroalkyl Substances (PFAS).
Analytical Chemistry, 92, (15), 10597-10605, (2020)
   

Potyrailo RA

Potyrailo RA, Polymeric sensor materials: Toward an alliance of combinatorial and rational design tools?
Angewandte Chemie International Edition, 45, (5), 702-723, (2006)
   

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Chemical Reviews, 108, (2), 770-813, (2008)
   

Pourali AR

Behbahani M et al., A nanosized cadmium(II)-imprinted polymer for use in selective trace determination of cadmium in complex matrices.
Microchimica Acta, 180, (11-12), 1117-1125, (2013)
   

Pourata R

Mirmohseni A et al., Experimental design and multi-objective optimization of molecularly imprinted polymers for monosaccharides.
RSC Advances, 4, (39), 20177-20184, (2014)
   

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IEEE Sensors Journal, 14, (8), 2807-2812, (2014)
   

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Current Analytical Chemistry, 13, (1), 62-69, (2017)
   

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4475-4478, (2012)
   

Pourfarzib M

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Journal of Chromatography B, 974, 1-8, (2015)
   

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Journal of Separation Science, 38, (10), 1755-1762, (2015)
   

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Ardestani F et al., Synthesis and Characterization of Nanopore Mo (VI)-Imprinted Polymer and Its Application as Solid Phase for Extraction, Separation and Preconcentration of Molybdenum Ions from Water Samples.
Journal of the Brazilian Chemical Society, 27, (7), 1279-1289, (2016)
   

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Rajabi HR et al., Preparation of a novel potassium ion imprinted polymeric nanoparticles based on dicyclohexyl 18C6 for selective determination of K+ ion in different water samples.
Materials Science and Engineering: C, 33, (6), 3374-3381, (2013)
   

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Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 117, 24-33, (2014)
   

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Electroanalysis, 30, (10), 2302-2310, (2018)
   

Pourmoslemi S

Alimohammadi Z et al., Selective extraction of zolpidem from plasma using molecularly imprinted polymer followed by high performance liquid chromatography.
Microchemical Journal, 162, Article105844-(2021)
   

Pournamdari E

Gomar M et al., Synthesis and Characterization of Thermosensitive Molecularly Imprinted Poly[allylacetoacetate/N-vinyl caprolactam] for Selective Extraction of Gemcitabine in Biological Samples.
ChemistrySelect, 3, (9), 2571-2577, (2018)
   

Pournamdari M

Mehdipour M et al., Selective extraction of organophosphorous pesticides in plasma by magnetic molecularly imprinted polymers with the aid of computational design.
Analytical Methods, 10, (34), 4136-4142, (2018)
   

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Separation Science and Technology, 56, (11), 1899-1909, (2021)
   

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Poursharifi MJ et al., Determination of cadmium(II) using Cd(II)-imprinted nano diazoaminobenzene-vinylpyridine copolymers.
Asian Journal of Chemistry, 24, (10), 4563-4568, (2012)
   

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Kraft A et al., Hydrogen-bonding between benzoic acid and an N, N'-diethyl-substituted benzamidine.
Tetrahedron, 58, (18), 3499-3505, (2002)
   

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Turkewitsch P et al., Fluorescent functional recognition sites through molecular imprinting. A polymer-based fluorescent chemosensor for aqueous cAMP.
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Llusar M et al., Templated growth of alumina-based fibers through the use of anthracenic organogelators.
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Guzzella L et al., Synthesis and characterization of a propazine imprinted polymer for the extraction of triazines herbicides.
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Prabaharan M

Li SJ et al., Book chapter, 'ON/OFF'-switched molecular recognition by a smart aminopurine-imprinted polymer, 
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Kaur N et al., Current scenario in organophosphates detection using electrochemical biosensors.
TrAC Trends in Analytical Chemistry, 92, 62-85, (2017)
   

Prabhu P

Prabhu P et al., Book chapter, Recent progress on nanofabrication of molecularly imprinted polymers, 
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Prabhu SN

Prabhu SN et al., Functionality Evaluation of Micro-Electro-Mechanical-Systems Sensor for Varied Selective Functionalization Thickness to Determine Creatinine Concentration.
IEEE Sensors Journal, 21, (15), 17244-17253, (2021)
   

Prachayasittikul V

Boonpangrak S et al., Proceeding, Molecularly imprinted polymer microspheres prepared by precipitation polymerization using a sacrificial covalent bond, 
Art. No. E0117, (2005)
   

Isarankura-Na-Ayudhya C et al., Construction of Molecularly Imprinted Polymers for Cholesterol by Semi-covalent Imprinting Approach and Nitroxide Mediated Radical Polymerization.
Thammasat International Journal of Science and Technology, 10, (4), 1-6, (2005)
   

Piacham T et al., Erratum to "Molecularly imprinted polymer thin films on quartz crystal microbalance using a surface bound photo-radical initiator": [Analytica Chimica Acta 536 (2005) 191-196].
Analytica Chimica Acta, 542, (1), 135-135, (2005)
   

Piacham T et al., Molecularly imprinted polymer thin films on quartz crystal microbalance using a surface bound photo-radical initiator.
Analytica Chimica Acta, 536, (1-2), 191-196, (2005)
   

Boonpangrak S et al., Molecularly imprinted polymer microspheres prepared by precipitation polymerization using a sacrificial covalent bond.
Journal of Applied Polymer Science, 99, (4), 1390-1398, (2006)
   

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Biosensors and Bioelectronics, 22, (3), 349-354, (2006)
   

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EXCLI Journal, 5, 150-163, (2006)
   

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EXCLI Journal, 5, 103-117, (2006)
   

Nantasenamat C et al., Quantitative prediction of imprinting factor of molecularly imprinted polymers by artificial neural network.
Journal of Computer-Aided Molecular Design, 19, (7), 509-524, (2006)
   

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Biosensors and Bioelectronics, 22, (12), 3309-3317, (2007)
   

Isarankura-Na-Ayudhya C et al., Computational Insights on Sulfonamide Imprinted Polymers.
Molecules, 13, (12), 3077-3091, (2008)
   

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EXCLI Journal, 8, 74-88, (2009)
   

Piacham T et al., Synthesis and Theoretical Study of Molecularly Imprinted Nanospheres for Recognition of Tocopherols.
Molecules, 14, (8), 2985-3002, (2009)
   

Nantasenamat C et al., Exploring the physicochemical properties of templates from molecular imprinting literature using interactive text mining approach.
Chemometrics and Intelligent Laboratory Systems, 116, (1), 128-136, (2012)
   

Piacham T et al., Synthesis and computational investigation of molecularly imprinted nanospheres for selective recognition of alpha-tocopherol succinate.
EXCLI Journal, 12, 701-718, (2013)
   

Piacham T et al., A simple method for creating molecularly imprinted polymer-coated bacterial cellulose nanofibers.
Chemical Papers, 68, (6), 838-841, (2014)
   

Suwanwong Y et al., Effects of Polymerization Methods and Functional Monomers on Curcumin Imprinted Polymer Properties.
Separation Science and Technology, 49, (7), 1086-1095, (2014)
   

Piacham T et al., Quercetin-imprinted polymer for anthocyanin extraction from mangosteen pericarp.
Materials Science and Engineering: C, 51, 127-131, (2015)
   

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Prachi et al., Nanotechnology in Waste Water Treatment: A Review.
International Journal of ChemTech Research, 5, (5), 2303-2308, (2013)
   

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da Silva JL et al., Non-enzymatic lactose molecularly imprinted sensor based on disposable graphite paper electrode.
Analytica Chimica Acta, 1143, 53-64, (2021)
   

Pradhan S

Pradhan S et al., Molecularly imprinted nanopatterns for the recognition of biological warfare agent ricin.
Biosensors and Bioelectronics, 25, (3), 592-598, (2009)
   

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IEEE Sensors Journal, 19, (3), 885-892, (2019)
   

Pradny M

Sirc J et al., Morphological and chromatographic characterization of molecularly imprinted monolithic columns.
E-Polymers, Art. No. 117-(2007)
   

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Santos AM et al., Voltammetric determination of ethinylestradiol using screen-printed electrode modified with functionalized graphene, graphene quantum dots and magnetic nanoparticles coated with molecularly imprinted polymers.
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Prahl S

Brazier JJ et al., Proceeding, Molecularly imprinted polymers used as optical waveguides for the detection of fluorescent analytes, 
Shea KJ, Yan M, Roberts MJ, Cremer PS, Crooks RM, Sailor MJ (Eds.), 115-120, (2002)
   

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Chen Y et al., Optical Molecularly Imprinted Polymer Sensors.
Proceedings of the Oregon Academy of Science, 39, 37-37, (2003)
   

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Proceedings of the Oregon Academy of Science, 40, 49-49, (2004)
   

Chen YC et al., Book chapter, Evaluation of molecularly imprinted polyurethane as an optical waveguide for PAH sensing, 
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Chen YC et al., Fluorescence-based optical sensor design for molecularly imprinted polymers.
Sensors and Actuators B: Chemical, 102, (1), 107-116, (2004)
   

Chen YC et al., Book chapter, Steady-state fluorescence anisotropy studies of molecularly imprinted polymer sensors, 
In: Molecularly Imprinted Materials-2003, Kofinas P, Sellergren B, Roberts MJ (Eds.) Materials Research Society: Warrendale, Ch. 6, 35-39, (2004)
   

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Luminescence, 21, (1), 7-14, (2006)
   

Prajapati RK

Singh KP et al., Electrochemical sensing for the detection of 2, 4-dichlorophenoxy acetic acid using molecularly imprinted polymer membrane.
Ionics, 16, (6), 529-537, (2010)
   

Singh KP et al., Preparation of isoproturon and 2, 4-dichlorophenoxy acetic acid imprinted membranes: Ion transport study.
Desalination and Water Treatment, 24, (1-3), 176-189, (2010)
   

Singh KP et al., Use of Isoproturon Imprinted Polymer Membranes as a Selective Recognition Platform in a Resistance Based Electrochemical Sensor.
Open Journal of Applied Biosensor, 2, (1), 20-28, (2013)
   

Prajongtat P

Dechtrirat D et al., An electrochemical MIP sensor for selective detection of salbutamol based on a graphene/PEDOT:PSS modified screen printed carbon electrode.
RSC Advances, 8, (1), 206-212, (2018)
   

Dechtrirat D et al., A screen-printed carbon electrode modified with gold nanoparticles, poly(3, 4-ethylenedioxythiophene), poly(styrene sulfonate) and a molecular imprint for voltammetric determination of nitrofurantoin.
Microchimica Acta, 185, (5), ArticleNo261-(2018)
   

Prakasam T

Balamurugan K et al., Preparation and evaluation of molecularly imprinted polymer liquid chromatography column for the separation of Cathine enantiomers.
Saudi Pharmaceutical Journal, 20, (1), 53-61, (2012)
   

Balamurugan K et al., Preparation and evaluation of molecularly imprinted polymer liquid chromatography column for the separation of ephedrine enantiomers.
Arabian Journal of Chemistry, 9, (Supplement 1), S528-S536, (2016)
   

Prakash A

Jenifer AC et al., A Review of the Unconventional Methods Used for the Demetallization of Petroleum Fractions over the Past Decade.
Energy & Fuels, 29, (12), 7743-7752, (2015)
   

Prakash M

Selvam SP et al., Novel SeS2-loaded Co MOF with Au@PANI comprised electroanalytical molecularly imprinted polymer-based disposable sensor for patulin mycotoxin.
Biosensors and Bioelectronics, 187, Article113302-(2021)
   

Pramanik P

Chatterjee TN et al., Detection of theaflavins in black tea using a molecular imprinted polyacrylamide-graphite nanocomposite electrode.
Sensors and Actuators B: Chemical, 246, 840-847, (2017)
   

Chatterjee TN et al., Molecular Imprinted Polymer Based Electrode for Sensing Catechin (+C) in Green Tea.
IEEE Sensors Journal, 18, (6), 2236-2244, (2018)
   

Ghatak B et al., Application of Polymethacrylic Acid Imprinted Quartz Crystal Microbalance Sensor for Detection of 3-Carene in Mango.
IEEE Sensors Journal, 18, (7), 2697-2704, (2018)
   

Banerjee MB et al., Detection of Benzene and Volatile Aromatic Compounds by Molecularly Imprinted Polymer-Coated Quartz Crystal Microbalance Sensor.
IEEE Sensors Journal, 19, (3), 885-892, (2019)
   

Naskar H et al., Voltammetric Detection of Thymol (THY) Using Polyacrylamide Embedded Graphite Molecular Imprinted Polymer (PAM@G-MIP) Electrode.
IEEE Sensors Journal, 19, (19), 8583-8589, (2019)
   

Das D et al., Electrochemical Detection of Epicatechin in Green Tea Using Quercetin-Imprinted Polymer Graphite Electrode.
IEEE Sensors Journal, 21, (23), 26526-26533, (2021)
   

Pramod K

Sabu C et al., Bioinspired and biomimetic systems for advanced drug and gene delivery.
Journal of Controlled Release, 287, 142-155, (2018)
   

Sabu C et al., Bioinspired oral insulin delivery system using yeast microcapsules.
Materials Science and Engineering: C, 103, Article109753-(2019)
   

Prandi C

Piscopo L et al., Uniformly sized molecularly imprinted polymers (MIPs) for 17b-estradiol.
Macromolecular Chemistry And Physics, 203, (10-11), 1532-1538, (2002)
   

Prasad A

Prasad A et al., Proceeding, Substrate-selective imprinted polymer based ceramic electrode sensor for bovine serum albumin, 
Bhardwaj S, Shekhawat MS, Suthar B (Eds.), 1167-1168, (2013)
   

Prasad BB et al., Multiwalled carbon nanotubes-ceramic electrode modified with substrate-selective imprinted polymer for ultra-trace detection of bovine serum albumin.
Biosensors and Bioelectronics, 39, (1), 236-243, (2013)
   

Prasad BB et al., Multiwalled carbon nanotubes bearing 'terminal monomeric unit' for the fabrication of epinephrine imprinted polymer-based electrochemical sensor.
Biosensors and Bioelectronics, 45, 114-122, (2013)
   

Prasad BB et al., Highly selective and sensitive analysis of [gamma]-aminobutyric acid using a new molecularly imprinted polymer modified at the surface of abrasively immobilized multi-walled carbon nanotubes on pencil graphite electrode.
Electrochimica Acta, 102, 400-408, (2013)
   

Prasad BB et al., Quantum dots-multiwalled carbon nanotubes nanoconjugate-modified pencil graphite electrode for ultratrace analysis of hemoglobin in dilute human blood samples.
Talanta, 109, 52-60, (2013)
   

Prasad BB et al., Molecularly imprinted micro solid-phase extraction technique coupled with complementary molecularly imprinted polymer-sensor for ultra trace analysis of epinephrine in real samples.
Colloids and Surfaces B: Biointerfaces, 113, 69-76, (2014)
   

Tiwari MP et al., Molecularly imprinted polymer based enantioselective sensing devices: A review.
Analytica Chimica Acta, 853, 1-18, (2015)
   

Ghatak B et al., Application of Polymethacrylic Acid Imprinted Quartz Crystal Microbalance Sensor for Detection of 3-Carene in Mango.
IEEE Sensors Journal, 18, (7), 2697-2704, (2018)
   

Prasad BB

Prasad BB et al., Determination of diquat herbicide by selective enrichment by column chromatography on imprinted polymer immobilised on silica gel.
Chromatographia, 55, (3-4), 171-176, (2002)
   

Prasad BB et al., Imprinted polymer - Modified hanging mercury drop electrode for differential pulse adsorptive stripping voltammetric analysis of a diquat herbicide.
Electroanalysis, 15, (2), 108-114, (2003)
   

Prasad BB et al., Preparation, characterization and performance of a silica gel bonded molecularly imprinted polymer for selective recognition and enrichment of b-lactam antibiotics.
Reactive and Functional Polymers, 55, (2), 159-169, (2003)
   

Prasad BB et al., Barbituric acid sensor based on molecularly imprinted polymer-modified hanging mercury drop electrode.
Electroanalysis, 17, (14), 1260-1268, (2005)
   

Lakshmi D et al., Development of uric acid sensor based on molecularly imprinted polymer-modified hanging mercury drop electrode.
Electroanalysis, 18, (9), 918-927, (2006)
   

Lakshmi D et al., Creatinine sensor based on a molecularly imprinted polymer-modified hanging mercury drop electrode.
Talanta, 70, (2), 272-280, (2006)
   

Lakshmi D et al., Imprinted polymer-modified hanging mercury drop electrode for differential pulse cathodic stripping voltammetric analysis of creatine.
Biosensors and Bioelectronics, 22, (12), 3302-3308, (2007)
   

Prasad BB et al., Molecularly imprinted polymer-based solid-phase extraction combined with molecularly imprinted polymer-based sensor for detection of uric acid.
Journal of Chromatography A, 1173, (1-2), 18-26, (2007)
   

Sharma PS et al., Highly Sensitive and Selective Detection of Creatinine by Combined Use of MISPE and a Complementary MIP-Sensor.
Chromatographia, 65, (7), 419-427, (2007)
   

Sharma PS et al., Molecularly imprinted solid-phase extraction combined with molecularly imprinted polymer-sensor: a diagnostic tool applicable to creatine deficiency syndrome.
Biomedical Chromatography, 21, (9), 976-986, (2007)
   

Patel AK et al., Development of a Creatinine Sensor Based on a Molecularly Imprinted Polymer-Modified Sol-Gel Film on Graphite Electrode.
Electroanalysis, 20, (19), 2102-2112, (2008)
   

Prasad BB et al., Molecularly imprinted polymer-based solid-phase microextraction fiber coupled with molecularly imprinted polymer-based sensor for ultratrace analysis of ascorbic acid.
Journal of Chromatography A, 1198-1199, (1-2), 59-66, (2008)
   

Patel AK et al., Voltammetric sensor for barbituric acid based on a sol-gel derivated molecularly imprinted polymer brush grafted to graphite electrode.
International Journal of Pharmaceutics, 371, (1-2), 47-55, (2009)
   

Patel AK et al., Electrochemical sensor for uric acid based on a molecularly imprinted polymer brush grafted to tetraethoxysilane derived sol-gel thin film graphite electrode.
Materials Science and Engineering: C, 29, (5), 1545-1553, (2009)
   

Prasad BB et al., Zwitterionic molecularly imprinted polymer-based solid-phase micro-extraction coupled with molecularly imprinted polymer sensor for ultra-trace sensing of L-histidine.
Journal of Separation Science, 32, (7), 1096-1105, (2009)
   

Prasad BB et al., Ascorbic acid sensor based on molecularly imprinted polymer-modified hanging mercury drop electrode.
Materials Science and Engineering: C, 29, (4), 1082-1087, (2009)
   

Prasad BB et al., Ultratrace analysis of uracil and 5-fluorouracil by molecularly imprinted polymer brushes grafted to silylated solid-phase microextraction fiber in combination with complementary molecularly imprinted polymer-based sensor.
Biomedical Chromatography, 23, (5), 499-509, (2009)
   

Prasad BB et al., Trace-level sensing of dopamine in real samples using molecularly imprinted polymer-sensor.
Biochemical Engineering Journal, 44, (2-3), 232-239, (2009)
   

Prasad BB et al., Ultratrace Analysis of Dopamine Using a Combination of Imprinted Polymer-Brush-Coated SPME and Imprinted Polymer Sensor Techniques.
Chromatographia, 69, (9), 949-957, (2009)
   

Prasad BB et al., A new zwitterionic imprinted polymer sensor using ethylenediamine tetraacetic acid and chloranil precursors for the trace analysis of l-histidine.
Materials Science and Engineering: C, 29, (6), 1781-1789, (2009)
   

Prasad BB et al., Development of Uracil and 5-Fluorouracil Sensors Based on Molecularly Imprinted Polymer-Modified Hanging Mercury Drop Electrode.
Sensors and Materials, 21, (6), 291-306, (2009)
   

Patel AK et al., Trace-level sensing of creatine in real sample using a zwitterionic molecularly imprinted polymer brush grafted to sol-gel modified graphite electrode.
Thin Solid Films, 518, (10), 2847-2853, (2010)
   

Prasad BB et al., Imprinting molecular recognition sites on multiwalled carbon nanotubes surface for electrochemical detection of insulin in real samples.
Electrochimica Acta, 55, (28), 9146-9156, (2010)
   

Prasad BB et al., Enantioselective quantitative separation of d- and l-thyroxine by molecularly imprinted micro-solid phase extraction silver fiber coupled with complementary molecularly imprinted polymer-sensor.
Journal of Chromatography A, 1217, (26), 4255-4266, (2010)
   

Prasad BB et al., Imprinted polymer-carbon consolidated composite fiber sensor for substrate-selective electrochemical sensing of folic acid.
Biosensors and Bioelectronics, 25, (9), 2140-2148, (2010)
   

Prasad BB et al., Development of a highly sensitive and selective hyphenated technique (molecularly imprinted micro-solid phase extraction fiber-molecularly imprinted polymer fiber sensor) for ultratrace analysis of folic acid.
Analytica Chimica Acta, 662, (1), 14-22, (2010)
   

Prasad BB et al., Layer-by-layer assembled molecularly imprinted polymer modified silver electrode for enantioselective detection of d- and l-thyroxine.
Analytica Chimica Acta, 681, (1-2), 16-26, (2010)
   

Prasad BB et al., Electrochemical sensor for folic acid based on a hyperbranched molecularly imprinted polymer-immobilized sol-gel-modified pencil graphite electrode.
Sensors and Actuators B: Chemical, 146, (1), 321-330, (2010)
   

Prasad BB et al., Enantioselective recognition of d- and l-tryptophan by imprinted polymer-carbon composite fiber sensor.
Talanta, 81, (1-2), 187-196, (2010)
   

Kumar D et al., Molecularly imprinted polymer-modified electrochemical sensor for simultaneous determination of copper and zinc.
Advanced Materials Letters, 2, (4), 294-297, (2011)
   

Lakshmi D et al., Electrochemical Detection of Uric Acid in Mixed and Clinical Samples: A Review.
Electroanalysis, 23, (2), 305-320, (2011)
   

Madhuri R et al., Biomimetic piezoelectric quartz sensor for folic acid based on a molecular imprinting technology.
Advanced Materials Letters, 2, (4), 264-267, (2011)
   

Prasad BB et al., Ascorbic acid imprinted polymer-modified graphite electrode: A diagnostic sensor for hypovitaminosis C at ultra trace ascorbic acid level.
Sensors and Actuators B: Chemical, 160, (1), 418-427, (2011)
   

Prasad BB et al., Enantioselective separation and electrochemical sensing of d- and l-tryptophan at ultratrace level using molecularly imprinted micro-solid phase extraction fiber coupled with complementary molecularly imprinted polymer-fiber sensor.
Journal of Chromatography B, 879, (5-6), 364-370, (2011)
   

Prasad BB et al., Sol-gel derived multiwalled carbon nanotubes ceramic electrode modified with molecularly imprinted polymer for ultra trace sensing of dopamine in real samples.
Electrochimica Acta, 56, (20), 7202-7211, (2011)
   

Prasad BB et al., Metal ion mediated imprinting for electrochemical enantioselective sensing of l-histidine at trace level.
Biosensors and Bioelectronics, 28, (1), 117-126, (2011)
   

Tiwari MP et al., Double imprinting in a single molecularly imprinted polymer format for the determination of ascorbic acid and dopamine.
Advanced Materials Letters, 2, (4), 276-280, (2011)
   

Kumar D et al., Multiwalled carbon nanotubes embedded molecularly imprinted polymer-modified screen printed carbon electrode for the quantitative analysis of C-reactive protein.
Sensors and Actuators B: Chemical, 171-172, 1141-1150, (2012)
   

Prasad BB et al., Nonhydrolytic sol-gel derived imprinted polymer-multiwalled carbon nanotubes composite fiber sensors for electrochemical sensing of uracil and 5-fluorouracil.
Electrochimica Acta, 71, (1), 106-115, (2012)
   

Prasad BB et al., Book chapter, Molecularly Imprinted Nanomaterial-based Highly Sensitive and Selective Medical Devices, 
In: Biomedical Materials and Diagnostic Devices, Tiwari A, Ramalingam M, Kobayashi H, Turner APF (Eds.) John Wiley & Sons, Inc.: Ch. 12, 339-391, (2012)
   

Prasad BB et al., Study on monomer suitability toward the template in molecularly imprinted polymer: An ab initio approach.
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 88, (1), 82-89, (2012)
   

Prasad BB et al., Metal incorporated molecularly imprinted polymer-based electrochemical sensor for enantio-selective analysis of pyroglutamic acid isomers.
Sensors and Actuators B: Chemical, 186, 407-416, (2013)
   

Prasad BB et al., Multiwalled carbon nanotubes-ceramic electrode modified with substrate-selective imprinted polymer for ultra-trace detection of bovine serum albumin.
Biosensors and Bioelectronics, 39, (1), 236-243, (2013)
   

Prasad BB et al., Multiwalled carbon nanotubes-based pencil graphite electrode modified with an electrosynthesized molecularly imprinted nanofilm for electrochemical sensing of methionine enantiomers.
Sensors and Actuators B: Chemical, 176, 863-874, (2013)
   

Prasad BB et al., Electrochemically imprinted molecular recognition sites on multiwalled carbon-nanotubes/pencil graphite electrode surface for enantioselective detection of d- and l-aspartic acid.
Electrochimica Acta, 88, 24-34, (2013)
   

Prasad BB et al., Electrochemically grown imprinted polybenzidine nanofilm on multiwalled carbon nanotubes anchored pencil graphite fibers for enantioselective micro-solid phase extraction coupled with ultratrace sensing of d- and l-methionine.
Journal of Chromatography B, 912, 65-74, (2013)
   

Prasad BB et al., A dual-template imprinted polymer-modified carbon ceramic electrode for ultra trace simultaneous analysis of ascorbic acid and dopamine.
Biosensors and Bioelectronics, 50, 19-27, (2013)
   

Prasad BB et al., Molecular structure, vibrational spectra and quantum chemical MP2/DFT studies toward the rational design of hydroxyurea imprinted polymer.
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 105, 400-411, (2013)
   

Prasad BB et al., Highly sensitive and selective hyphenated technique (molecularly imprinted polymer solid-phase microextraction-molecularly imprinted polymer sensor) for ultra trace analysis of aspartic acid enantiomers.
Journal of Chromatography A, 1283, 9-19, (2013)
   

Prasad BB et al., Molecularly imprinted polymer-matrix nanocomposite for enantioselective electrochemical sensing of d- and l-aspartic acid.
Materials Science and Engineering: C, 33, (7), 4071-4080, (2013)
   

Prasad BB et al., Multiwalled carbon nanotubes bearing 'terminal monomeric unit' for the fabrication of epinephrine imprinted polymer-based electrochemical sensor.
Biosensors and Bioelectronics, 45, 114-122, (2013)
   

Prasad BB et al., Highly selective and sensitive analysis of [gamma]-aminobutyric acid using a new molecularly imprinted polymer modified at the surface of abrasively immobilized multi-walled carbon nanotubes on pencil graphite electrode.
Electrochimica Acta, 102, 400-408, (2013)
   

Prasad BB et al., Quantum dots-multiwalled carbon nanotubes nanoconjugate-modified pencil graphite electrode for ultratrace analysis of hemoglobin in dilute human blood samples.
Talanta, 109, 52-60, (2013)
   

Prasad BB et al., Molecularly imprinted polymer-based piezoelectric sensor for enantio-selective analysis of malic acid isomers.
Sensors and Actuators B: Chemical, 181, 596-604, (2013)
   

Prasad BB et al., Highly selective and sensitive analysis of dopamine by molecularly imprinted stir bar sorptive extraction technique coupled with complementary molecularly imprinted polymer sensor.
Journal of Colloid and Interface Science, 396, 234-241, (2013)
   

Prasad BB et al., Molecularly imprinted micro solid-phase extraction technique coupled with complementary molecularly imprinted polymer-sensor for ultra trace analysis of epinephrine in real samples.
Colloids and Surfaces B: Biointerfaces, 113, 69-76, (2014)
   

Prasad BB et al., A dual-ion imprinted polymer embedded in sol-gel matrix for the ultra trace simultaneous analysis of cadmium and copper.
Talanta, 120, 398-407, (2014)
   

Prasad BB et al., Doubly imprinted polymer nanofilm-modified electrochemical sensor for ultra-trace simultaneous analysis of glyphosate and glufosinate.
Biosensors and Bioelectronics, 59, 81-88, (2014)
   

Tiwari MP et al., An insulin monitoring device based on hyphenation between molecularly imprinted micro-solid phase extraction and complementary molecularly imprinted polymer-sensor.
Journal of Chromatography A, 1337, 22-31, (2014)
   

Tiwari MP et al., Book chapter, Moleculalry Imprinted Polymer as Advanced Material for Development of Enantioselective Sensing Devices, 
In: Advanced Sensor and Detection Materials, Tiwari A, Demir MM (Eds.) John Wiley & Sons Inc.: Hoboken, Ch. 4, 87-109, (2014)
   

Prasad BB et al., A new micro-contact imprinted l-cysteine sensor based on sol-gel decorated graphite/multiwalled carbon nanotubes/gold nanoparticles composite modified sandpaper electrode.
Sensors and Actuators B: Chemical, 212, 155-164, (2015)
   

Prasad BB et al., A dual-template biomimetic molecularly imprinted dendrimer-based piezoelectric sensor for ultratrace analysis of organochlorine pesticides.
Sensors and Actuators B: Chemical, 207, (Part A), 542-551, (2015)
   

Prasad BB et al., Double-ion imprinted polymer@magnetic nanoparticles modified screen printed carbon electrode for simultaneous analysis of cerium and gadolinium ions.
Analytica Chimica Acta, 875, 83-91, (2015)
   

Prasad BB et al., Development of molecularly imprinted polymer nanoarrays of N-acryloyl-2-mercaptobenzamide on a silver electrode for ultratrace sensing of uracil and 5-fluorouracil.
Journal of Materials Chemistry B, 3, (28), 5864-5876, (2015)
   

Pandey K et al., A Critical Review on Clinical Application of Separation Techniques for Selective Recognition of Uracil and 5-Fluorouracil.
Indian Journal of Clinical Biochemistry, 31, (1), 3-12, (2016)
   

Prasad BB et al., Development of imprinted polyneutral red/electrochemically reduced graphene oxide composite for ultra-trace sensing of 6-thioguanine.
Carbon, 102, 86-96, (2016)
   

Prasad BB et al., Electrochemical sensing of ultra trace copper(II) by alga-OMNiIIP modified pencil graphite electrode.
Sensors and Actuators B: Chemical, 229, 655-663, (2016)
   

Prasad BB et al., An electroconducting copper (II) imprinted sensor using algae as cheap substitute of multiwalled carbon nanotubes.
Electrochimica Acta, 187, 193-203, (2016)
   

Prasad BB et al., Development of water compatible imprinted polymer beads for piezoelectric sensing of ultra-trace 5, 6-dihydrouracil in biological fluids.
Sensors and Actuators B: Chemical, 235, 94-102, (2016)
   

Prasad BB et al., Molecularly imprinted polymer-based electrochemical sensor using functionalized fullerene as a nanomediator for ultratrace analysis of primaquine.
Carbon, 109, 196-207, (2016)
   

Prasad BB et al., Gold nanorods vs. gold nanoparticles: application in electrochemical sensing of cytosine [beta]-d-arabinoside using metal ion mediated molecularly imprinted polymer.
RSC Advances, 6, (84), 80679-80691, (2016)
   

Prasad BB et al., Development of highly electrocatalytic and electroconducting imprinted film using Ni nanomer for ultra-trace detection of thiamine.
Sensors and Actuators B: Chemical, 246, 38-45, (2017)
   

Prasad BB et al., Synthesis of novel monomeric graphene quantum dots and corresponding nanocomposite with molecularly imprinted polymer for electrochemical detection of an anticancerous ifosfamide drug.
Biosensors and Bioelectronics, 94, 1-9, (2017)
   

Prasad BB et al., Ultra-trace analysis of d-and l-aspartic acid applying one-by-one approach on a dual imprinted electrochemical sensor.
Sensors and Actuators B: Chemical, 240, 631-639, (2017)
   

Prasad BB et al., One MoNomer doubly imprinted dendrimer nanofilm modified pencil graphite electrode for simultaneous electrochemical determination of norepinephrine and uric acid.
Electrochimica Acta, 232, 474-483, (2017)
   

Prasad BB et al., Molecularly imprinted polymer-based core-shells (solid vs hollow) @ pencil graphite electrode for electrochemical sensing of certain anti-HIV drugs.
Sensors and Actuators B: Chemical, 244, 167-174, (2017)
   

Prasad BB et al., Synthesis of fullerene (C60-monoadduct)-based water-compatible imprinted micelles for electrochemical determination of chlorambucil.
Biosensors and Bioelectronics, 94, 115-123, (2017)
   

Prasad BB et al., Development of surface imprinted nanospheres using the inverse suspension polymerization method for electrochemical ultra sensing of dacarbazine.
Analytica Chimica Acta, 974, 75-86, (2017)
   

Pathak PK et al., A novel electrocatalytic nanocomposite of reduced graphene oxide/silver nanocube hybrid decorated imprinted polymer for ultra-trace sensing of temozolomide.
New Journal of Chemistry, 42, (16), 13486-13496, (2018)
   

Singh K et al., One-by-one imprinting in two eccentric layers of hollow core-shells: Sequential electroanalysis of anti-HIV drugs.
Biosensors and Bioelectronics, 111, 82-89, (2018)
   

Fatma S et al., A reduced graphene oxide ceramic electrode modified with one MoNomer doubly imprinted acryloylated tetraamine cobalt phthalocyanine polymer for the simultaneous analysis of anticancerous drugs.
Sensors and Actuators B: Chemical, 281, 139-149, (2019)
   

Fatma S et al., Electrochemical simultaneous analysis of dopamine and epinephrine using double imprinted One MoNomer acryloylated graphene oxide-carbon black composite polymer.
Biosensors and Bioelectronics, 135, 36-44, (2019)
   

Jaiswal S et al., Enantioselective analysis of D- and l- Serine on a layer-by-layer imprinted electrochemical sensor.
Biosensors and Bioelectronics, 124-125, 176-183, (2019)
   

Kumar A et al., Electrocatalytic Imprinted Polymer of N-Doped Hollow Carbon Nanosphere-Palladium Nanocomposite for Ultratrace Detection of Anticancer Drug 6-Mercaptopurine.
ACS Applied Materials & Interfaces, 11, (17), 16065-16074, (2019)
   

Pathak PK et al., Functionalized nitrogen doped graphene quantum dots and bimetallic Au/Ag core-shell decorated imprinted polymer for electrochemical sensing of anticancerous hydroxyurea.
Biosensors and Bioelectronics, 127, 10-18, (2019)
   

Prasad K

Prasad K et al., Ion imprinted polymer based ion-selective electrode for the trace determination of dysprosium(III) ions.
Analytica Chimica Acta, 566, (1), 69-74, (2006)
   

Metilda P et al., Ion imprinted polymer based sensor for monitoring toxic uranium in environmental samples.
Analytica Chimica Acta, 582, (1), 147-153, (2007)
   

Prasad K et al., Design and Development of Imprinted Polymer Inclusion Membrane-Based Field Monitoring Device for Trace Determination of Phorate (O, O-Diethyl S-Ethyl Thiomethyl Phophorodithioate) in Natural Waters.
Electroanalysis, 19, (11), 1195-1200, (2007)
   

Prasad K et al., Molecularly imprinted polymer (biomimetic) based potentiometric sensor for atrazine.
Sensors and Actuators B: Chemical, 123, (1), 65-70, (2007)
   

Prathish KP et al., Molecularly imprinted polymer-based potentiometric sensor for degradation product of chemical warfare agents: Part I. Methylphosphonic acid.
Talanta, 71, (5), 1976-1980, (2007)
   

Rao TP et al., Biomimetic Sensors for Toxic Pesticides and Inorganics based on Optoelectronic/Electrochemical Transducers-An Overview.
Critical Reviews in Analytical Chemistry, 37, (3), 191-210, (2007)
   

Prasad R

Gupta N et al., Epitope imprinting of iron binding protein of Neisseria meningitidis bacteria through multiple monomers imprinting approach.
Journal of Molecular Recognition, 31, (7), ArticleNoe2709-(2018)
   

Prasada RT

Vishnuvardhan V et al., Fabrication and topographical analysis of non-covalently imprinted polymer inclusion membranes for the selective sensing of pinacolyl methylphosphonate--A simulant of Soman.
Electrochimica Acta, 52, (24), 6922-6928, (2007)
   

Prasada Rao T

Metilda P et al., Investigation of the role of chelating ligand in the synthesis of ion-imprinted polymeric resins on the selective enrichment of uranium(VI).
Analytica Chimica Acta, 587, (2), 263-271, (2007)
   

Sumi VS et al., Imprinted polymers as drug delivery vehicles for metal-based anti-inflammatory drug.
International Journal of Pharmaceutics, 349, (1-2), 30-37, (2008)
   

Milja TE et al., Synthesis of surface imprinted nanospheres for selective removal of uranium from simulants of Sambhar salt lake and ground water.
Journal of Hazardous Materials, 188, (1-3), 384-390, (2011)
   

Prasada Rao T et al., Book chapter, Optical Sensors for MonitoringTrace Inorganic Toxins, 
In: Handbook of Molecular Imprinting - Advanced Sensor Applications, Lee SW, Kunitake T (Eds.) Pan Stanford Publishing Pte. Ltd.: Singapore, Ch. 4, 147-180, (2013)
   

Praserthdam A

Spurlock LD et al., Selectivity and sensitivity of ultrathin purine-templated overoxidized polypyrrole film electrodes.
Analytica Chimica Acta, 336, (1-3), 37-46, (1996)
   

Prashamsa J

Rao RN et al., Molecularly imprinted polymer-based, solid-phase extraction followed by liquid chromatographic determination of lacosamide in rat plasma.
Analytical Methods, 6, (9), 3101-3107, (2014)
   

Pratama KF

Pratama KF et al., Effect of the Molecularly Imprinted Polymer Component Ratio on Analytical Performance.
Chemical and Pharmaceutical Bulletin, 68, (11), 1013-1024, (2020)
   

Prates Ramalho JP

Garcia R et al., A photoswitchable "host-guest" approach for the selective enrichment of dimethoate from olive oil.
Analytica Chimica Acta, 1035, 60-69, (2018)
   

Garcia R et al., A magnetic controllable tool for the selective enrichment of dimethoate from olive oil samples: A responsive molecular imprinting-based approach.
Food Chemistry, 254, 309-316, (2018)
   

Prathish KP

Prasad K et al., Design and Development of Imprinted Polymer Inclusion Membrane-Based Field Monitoring Device for Trace Determination of Phorate (O, O-Diethyl S-Ethyl Thiomethyl Phophorodithioate) in Natural Waters.
Electroanalysis, 19, (11), 1195-1200, (2007)
   

Prasad K et al., Molecularly imprinted polymer (biomimetic) based potentiometric sensor for atrazine.
Sensors and Actuators B: Chemical, 123, (1), 65-70, (2007)
   

Prathish KP et al., Molecularly imprinted polymer-based potentiometric sensor for degradation product of chemical warfare agents: Part I. Methylphosphonic acid.
Talanta, 71, (5), 1976-1980, (2007)
   

Vishnuvardhan V et al., Fabrication and topographical analysis of non-covalently imprinted polymer inclusion membranes for the selective sensing of pinacolyl methylphosphonate--A simulant of Soman.
Electrochimica Acta, 52, (24), 6922-6928, (2007)
   

Prathish KP et al., Rational Design of In Situ Monolithic Imprinted Polymer Membranes for the Potentiometric Sensing of Diethyl Chlorophosphate - a Chemical Warfare Agent Simulant.
Electroanalysis, 21, (9), 1048-1056, (2009)
   

Milja TE et al., Synthesis of surface imprinted nanospheres for selective removal of uranium from simulants of Sambhar salt lake and ground water.
Journal of Hazardous Materials, 188, (1-3), 384-390, (2011)
   

Saumya V et al., In situ copper oxide modified molecularly imprinted polypyrrole film based voltammetric sensor for selective recognition of tyrosine.
Talanta, 85, (2), 1056-1062, (2011)
   

Saumya V et al., Mechanistic aspects of tyrosine sensing on an in situ copper oxide modified molecularly imprinted polypyrrole coated glassy carbon electrode.
Journal of Electroanalytical Chemistry, 663, (2), 53-58, (2011)
   

Vishnuvardhan V et al., Imprinted Polymer Inclusion Membrane Based Potentiometric Sensor for Determination and Quantification of Diethyl Chlorophosphate in Natural Waters.
American Journal of Analytical Chemistry, 2, (3), 376-382, (2011)
   

Pratiwi R

Hasanah AN et al., Synthesis of Atenolol-Imprinted Polymers with Methyl Methacrylate as Functional Monomer in Propanol Using Bulk and Precipitation Polymerization Method.
Journal of Analytical Methods in Chemistry, 2019, Article9853620-(2019)
   

Pratiwi R et al., Comparison of Bulk and Precipitation Polymerization Method of Synthesis Molecular Imprinted Solid Phase Extraction for Atenolol using Methacrylic Acid.
Journal of Young Pharmacists, 11, (1), 12-16, (2019)
   

Suherman M et al., Performance Evaluation of Molecularly Imprinted Polymer using Propanol as Porogen for Atenolol Recognition in Human Serum.
Indonesian Journal of Pharmaceutical Science and Technology, 6, (1), 27-35, (2019)
   

Pratontep S

Rayanasukha Y et al., Non-enzymatic urea sensor using molecularly imprinted polymers surface modified based-on ion-sensitive field effect transistor (ISFET).
Surface and Coatings Technology, 306, (Part A), 147-150, (2016)
   

Praveen RS

Rao TP et al., Styrene-divinyl benzene copolymers: Synthesis, characterization, and their role in inorganic trace analysis.
Critical Reviews in Analytical Chemistry, 34, (3-4), 177-193, (2004)
   

Daniel S et al., Ternary ion-association complex based ion imprinted polymers (IIPs) for trace determination of palladium(II) in environmental samples.
Analytica Chimica Acta, 570, (1), 79-87, (2006)
   

Sumi VS et al., Imprinted polymers as drug delivery vehicles for metal-based anti-inflammatory drug.
International Journal of Pharmaceutics, 349, (1-2), 30-37, (2008)
   

Preece JA

Stephenson-Brown A et al., Selective glycoprotein detection through covalent templating and allosteric click-imprinting.
Chemical Science, 6, (9), 5114-5119, (2015)
   

Preetha CR

Preetha CR et al., Removal of toxic Uranium from synthetic nuclear power reactor effluents using uranyl ion imprinted polymer particles.
Environmental Science & Technology, 40, (9), 3070-3074, (2006)
   

Preinerstorfer B

Preinerstorfer B et al., Recent accomplishments in the field of enantiomer separation by CEC.
Electrophoresis, 28, (15), 2527-2565, (2007)
   

Preininger C

Buchegger P et al., Thermo-Nanoimprinted Biomimetic Probe for LPS and LTA Immunosensing.
Analytical Chemistry, 86, (3), 1679-1686, (2014)
   

Poller AM et al., Surface Imprints: Advantageous Application of Ready2use Materials for Bacterial Quartz-Crystal Microbalance Sensors.
ACS Applied Materials & Interfaces, 9, (1), 1129-1135, (2017)
   

Mattsson L et al., Competitive fluorescent pseudo-immunoassay exploiting molecularly imprinted polymers for the detection of biogenic amines in fish matrix.
Talanta, 181, 190-196, (2018)
   

Preis S

Kong QP et al., Adsorption of Cd2+ by an ion-imprinted thiol-functionalized polymer in competition with heavy metal ions and organic acids.
RSC Advances, 8, (16), 8950-8960, (2018)
   

Prelle A

Prelle A et al., Comparison of Clean-Up Methods for Ochratoxin A on Wine, Beer, Roasted Coffee and Chili Commercialized in Italy.
Toxins, 5, (10), 1827-1844, (2013)
   

Presotto ABT

Segatelli MG et al., Cadmium ion-selective sorbent preconcentration method using ion imprinted poly(ethylene glycol dimethacrylate-co-vinylimidazole).
Reactive and Functional Polymers, 70, (6), 325-333, (2010)
   

Preston C

Chianella I et al., Computational design and synthesis of molecularly imprinted polymers with high binding capacity for pharmaceutical applications-model case: Adsorbent for abacavir.
Analytica Chimica Acta, 559, (1), 73-78, (2006)
   

Pretali L

Sturini M et al., Environmental photochemistry of fluoroquinolones in soil and in aqueous soil suspensions under solar light.
Environmental Science and Pollution Research, 21, (23), 13215-13221, (2014)
   

Prete MC

dos Santos Moretti E et al., A nanocomposite based on multi-walled carbon nanotubes grafted by molecularly imprinted poly(methacrylic acid-hemin) as a peroxidase-like catalyst for biomimetic sensing of acetaminophen.
RSC Advances, 6, (34), 28751-28760, (2016)
   

Tarley CRT et al., Preparation and application of nanocomposite based on imprinted poly(methacrylic acid)-PAN/MWCNT as a new electrochemical selective sensing platform of Pb2+ in water samples.
Journal of Electroanalytical Chemistry, 801, 114-121, (2017)
   

Prete MC et al., Preparation of Molecularly Imprinted Poly(methacrylic acid) Grafted on Iniferter-Modified Multiwalled Carbon Nanotubes by Living-Radical Polymerization for 17[beta]-Estradiol Extraction.
Journal of Chemical & Engineering Data, 64, (5), 1978-1990, (2019)
   

de Cássia Mendonça J et al., Design and performance of novel molecularly imprinted biomimetic adsorbent for preconcentration of prostate cancer biomarker coupled to electrochemical determination by using multi-walled carbon nanotubes/Nafion®/Ni(OH)2-modified screen-printed electrode.
Journal of Electroanalytical Chemistry, 878, Article114582-(2020)
   

Preti G

Gallagher M et al., Synthesis and evaluation of imprinted polymers for selective recognition of fusaric acid.
Abstracts of Papers of the American Chemical Society, 236, (AGFD), 193-(2008)
   

Pribisko MA

Pribisko MA et al., Probing the origin of selective rebinding in molecularly imprinted polymers.
Abstracts of Papers of the American Chemical Society, 221, (CHED), 381-381, (2001)
   

Priego-Capote F

Priego-Capote F et al., Monoclonal Behavior of Molecularly Imprinted Polymer Nanoparticles in Capillary Electrochromatography.
Analytical Chemistry, 80, (8), 2881-2887, (2008)
   

Prieto A

Prieto A et al., Synthesis of a molecularly imprinted polymer and its application for microextraction by packed sorbent for the determination of fluoroquinolone related compounds in water.
Analytica Chimica Acta, 685, (2), 146-152, (2011)
   

Prieto A et al., Selective determination of estrogenic compounds in water by microextraction by packed sorbents and a molecularly imprinted polymer coupled with large volume injection-in-port-derivatization gas chromatography-mass spectrometry.
Analytica Chimica Acta, 703, (1), 41-51, (2011)
   

Ziarrusta H et al., Determination of fluoroquinolones in fish tissues, biological fluids, and environmental waters by liquid chromatography tandem mass spectrometry.
Analytical and Bioanalytical Chemistry, 409, (27), 6359-6370, (2017)
   

Prieto-Simón B

Campàs M et al., Biosensors to detect marine toxins: Assessing seafood safety.
Talanta, 72, (3), 884-895, (2007)
   

Prieto-Simón B et al., Emerging biotools for assessment of mycotoxins in the past decade.
TrAC Trends in Analytical Chemistry, 26, (7), 689-702, (2007)
   

Sassolas A et al., Biosensors for Pesticide Detection: New Trends.
American Journal of Analytical Chemistry, 3, (3), 210-232, (2012)
   

Cetó X et al., Electrochemical detection of N-nitrosodimethylamine using a molecular imprinted polymer.
Sensors and Actuators B: Chemical, 237, 613-620, (2016)
   

Prijs B

Bartels H et al., Über spezifisch adsorbierende Silicagele V.
Helvetica Chimica Acta, 49, (5), 1621-1625, (1966)
   

Bartels H et al., Specifically adsorbing silica gel.
Advances in Chromatography, 11, 115-143, (1974)
   

Prim D

Saadaoui A et al., New biosourced chiral molecularly imprinted polymer: Synthesis, characterization, and evaluation of the recognition capacity of methyltestosterone.
Journal of Molecular Recognition, 30, (4), ArticleNoe2594-(2017)
   

Primachenko ON

Pavlyuchenko VN et al., Polymer hydrogels with the memory effect for immobilization of drugs.
Polymer Science Series A, 53, (4), 323-335, (2011)
   

Primanchenko ON

Kul’velis YuV et al., Investigation of polymer hydrogels with memory effect for cefazolin immobilization by small-angle neutron scattering (Original Russian Text © Yu.V. Kul'velis, V.T. Lebedev, V.A. Trunov, S.S. Ivanchev, O.N. Primanchenko, S.Ya. Khaikin, 2012, published in Poverkhnost'. Rentgenovskie, Sinkhrotronnye i Neitronnye Issledovaniya, 2012, No. 10, pp. 45 - 52. ).
Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques, 6, (5), 825-832, (2012)
   

Primrose S

Piletska EV et al., Passive Control of Quorum Sensing: Prevention of Pseudomonas aeruginosa Biofilm Formation by Imprinted Polymers.
Biomacromolecules, 12, (4), 1067-1071, (2011)
   

Pringsheim E

Wolfbeis O et al., Book chapter, Fluorescence techniques for probing molecular interactions in imprinted polymers, 
In: Applied Fluorescence in Chemistry, Biology and Medicine, Rettig W, Strehmel B, Schrader S, Seifert H (Eds.) Springer: Berlin-Heidelberg, 277-295, (1998)
   

Prins LJ

Prins LJ et al., Multivalent Cooperative Catalysts.
Current Organic Chemistry, 13, (11), 1050-1064, (2009)
   

Prinz V

Werner M et al., Proceeding, P2BM.8 - Pickering Emulsion Polymerization of Polystyrene to Synthesize Bacteria Imprinted Polymer Beads for Pre- Concentration, 
699-700, (2018)
   

Pritsa A

Kalogiouri NP et al., A green molecular imprinted solid-phase extraction protocol for bisphenol A monitoring with HPLC-UV to guarantee the quality and safety of walnuts under different storage conditions.
Journal of Separation Science, 44, (8), 1633-1640, (2021)
   

Privitera V

Cantarella M et al., Selective photodegradation of paracetamol by molecularly imprinted ZnO nanonuts.
Applied Catalysis B: Environmental, 238, 509-517, (2018)
   

Cantarella M et al., Molecularly imprinted polymer for selective adsorption of diclofenac from contaminated water.
Chemical Engineering Journal, 367, 180-188, (2019)
   

Fiorenza R et al., Selective photodegradation of 2, 4-D pesticide from water by molecularly imprinted TiO2.
Journal of Photochemistry and Photobiology A-Chemistry, 380, Article111872-(2019)
   

Fiorenza R et al., Preferential removal of pesticides from water by molecular imprinting on TiO2 photocatalysts.
Chemical Engineering Journal, 379, Article122309-(2020)
   

Priyanka M

Dhanashree S et al., Molecularly Imprinted Polymers: Novel Discovery for Drug Delivery.
Current Drug Delivery, 13, (5), 632-645, (2016)
   

Prochowicz D

Iskierko Z et al., Molecularly Imprinted Polymer (MIP) Film with Improved Surface Area Developed by Using Metal-Organic Framework (MOF) for Sensitive Lipocalin (NGAL) Determination.
ACS Applied Materials & Interfaces, 8, (31), 19860-19865, (2016)
   

Prodi L

Zattoni A et al., Characterization of titanium dioxide nanoparticles imprinted for tyrosine by flow field-flow fractionation and spectrofluorimetric analysis.
Inorganica Chimica Acta, 360, (3), 1063-1071, (2007)
   

Prodromidis MI

Prodromidis MI, Impedimetric immunosensors--A review.
Electrochimica Acta, 55, (14), 4227-4233, (2010)
   

Profumo A

Pesavento M et al., Ion Selective Electrode for Dopamine Based on a Molecularly Imprinted Polymer.
Electroanalysis, 24, (4), 813-824, (2012)
   

Pesavento M et al., Book chapter, Potentiometric Sensors Based on Molecular Imprinted Polymers, 
In: Sensors, Baldini F, D'Amico A, Di Natale C, Siciliano P, Seeber R, De Stefano L, Bizzarri R, Andò B (Eds.) Springer: New York, 141-144, (2014)
   

Sturini M et al., Environmental photochemistry of fluoroquinolones in soil and in aqueous soil suspensions under solar light.
Environmental Science and Pollution Research, 21, (23), 13215-13221, (2014)
   

Cennamo N et al., Markers Detection in Transformer Oil by Plasmonic Chemical Sensor System Based on POF and MIPs.
IEEE Sensors Journal, 16, (21), 7663-7670, (2016)
   

Speltini A et al., Newest applications of molecularly imprinted polymers for extraction of contaminants from environmental and food matrices: A review.
Analytica Chimica Acta, 974, 1-26, (2017)
   

Cennamo N et al., Book chapter, Chemical Sensors Based on Surface Plasmon Resonance in a Plastic Optical Fiber for Multianalyte Detection in Oil-Filled Power Transformer, 
In: Sensors: Proceedings of the Third National Conference on Sensors, February 23-25, 2016, Rome, Italy, Andò B, Baldini F, Di Natale C, Marrazza G, Siciliano P (Eds.) Springer International Publishing: Cham, 128-134, (2018)
   

Promptmas C

Athikomrattanakul U et al., Synthetic receptors for neutral nitro derivatives.
Tetrahedron Letters, 50, (3), 359-362, (2009)
   

Pron A

Sobiech M et al., Semiconductor nanocrystal-polymer hybrid nanomaterials and their application in molecular imprinting.
Nanoscale, 11, (25), 12030-12074, (2019)
   

Prosen H

Cigic IK et al., An Overview of Conventional and Emerging Analytical Methods for the Determination of Mycotoxins.
International Journal of Molecular Sciences, 10, (1), 62-115, (2009)
   

Prosenc MH

Henschel H et al., A density functional study on the factors governing metal catalysis of the direct aldol reaction.
Journal of Molecular Catalysis A: Chemical, 351, 76-80, (2011)
   

Henschel H et al., Computational and structural studies on the complexation of cobalt(II) acetate by water and pyridine.
Journal of Molecular Structure, 1007, 45-51, (2012)
   

Proshina VS

Pavlyuchenko VN et al., Polymer hydrogels with the memory effect for immobilization of drugs.
Polymer Science Series A, 53, (4), 323-335, (2011)
   

Proskuryakova ED

Gubin AS et al., Use of Molecularly Imprinted Polymer for the Preconcentration of 4-Nitrophenol from Aqueous Media.
Journal of Analytical Chemistry, 74, (1), 11-17, (2019)
   

Prost E

Nestora S et al., Plastic Antibodies for Cosmetics: Molecularly Imprinted Polymers Scavenge Precursors of Malodors.
Angewandte Chemie International Edition, 55, (21), 6252-6256, (2016)
   

Nestora S et al., Solid-phase extraction of betanin and isobetanin from beetroot extracts using a dipicolinic acid molecularly imprinted polymer.
Journal of Chromatography A, 1465, 47-54, (2016)
   

Panagiotopoulou M et al., Molecularly Imprinted Polymer Coated Quantum Dots for Multiplexed Cell Targeting and Imaging.
Angewandte Chemie International Edition, 55, (29), 8244-8248, (2016)
   

Mourão CA et al., Dual-Oriented Solid-Phase Molecular Imprinting: Toward Selective Artificial Receptors for Recognition of Nucleotides in Water.
Macromolecules, 50, (19), 7484-7490, (2017)
   

Xu JJ et al., Direct and sensitive determination of trypsin in human urine using a water-soluble signaling fluorescent molecularly imprinted polymer nanoprobe.
Sensors and Actuators B: Chemical, 258, 10-17, (2018)
   

Le Goff N et al., Renewable Plant Oil-Based Molecularly Imprinted Polymers as Biopesticide Delivery Systems.
ACS Sustainable Chemistry & Engineering, 8, (42), 15927-15935, (2020)
   

Prus W

Wyszomirski M et al., Molecular modelling of a template substitute and monomers used in molecular imprinting for aflatoxin B1 micro-HPLC analysis.
Molecular Simulation, 38, (11), 892-895, (2012)
   

Szumski M et al., Monolithic molecularly imprinted polymeric capillary columns for isolation of aflatoxins.
Journal of Chromatography A, 1364, 163-170, (2014)
   

Prusty AK

Prusty AK et al., A capacitive sensor for 2, 4-D determination in water based on 2, 4-D imprinted polypyrrole coated pencil electrode.
Materials Research Express, 4, (3), AricleNo035306-(2017)
   

Prutthiwanasan B

Prutthiwanasan B et al., Fluorescent labelling of ciprofloxacin and norfloxacin and its application for residues analysis in surface water.
Talanta, 159, 74-79, (2016)
   

Prutthiwanasan B et al., Improved resolution of fluoroquinolones using cetyltrimethyl ammonium bromide-micellar electrokinetic chromatography and its application to residue analysis in surface water.
Journal of Chromatography B, 1092, 306-312, (2018)
   

Pruvost A

Agrofoglio LA et al., Detection of urinary modified nucleosides by a bulk acoustic wave MIP sensor - Results and future work.
IRBM, 35, (2), 66-71, (2014)
   

Przyjazny A

Kloskowski A et al., Progress in Development of Molecularly Imprinted Polymers as Sorbents for Sample Preparation.
Critical Reviews in Analytical Chemistry, 39, (1), 43-58, (2009)
   

Pschenitza M

Pschenitza M et al., Analysis of Benzo[a]pyrene in Vegetable Oils Using Molecularly Imprinted Solid Phase Extraction (MISPE) Coupled with Enzyme-Linked Immunosorbent Assay (ELISA).
Sensors, 14, (6), 9720-9735, (2014)
   

Pszona M

Wojnarowicz A et al., An electropolymerized molecularly imprinted polymer for selective carnosine sensing with impedimetric capacity.
Journal of Materials Chemistry B, 4, (6), 1156-1165, (2016)
   

Pu D

Pu D et al., Synthesis of glycylglycine imprinted polymer microspheres via emulsion polymerization.
The Chinese Journal of Process Engineering, 11, (4), 671-677, (2011)
   

Yin YN et al., Study on Adsorption Properties of Glycylglycine Molecular Imprinted Polymer Microspheres.
Chemistry Bulletin, 75, (1), 58-62, (2012)
   

Pu JZ

Pu JZ et al., The application of molecular imprinting polymer in pharmaceutical analysis.
West China Journal of Pharmaceutical Sciences, 18, (2), 122-124, (2003)
   

Pu JZ et al., Synthesis and Characterization of Molecularly Imprinted Polymers for the Recognition of Lidocaine.
Journal of Instrumental Analysis, 23, (3), 86-89, (2004)
   

Pu JZ et al., The Sythesis and selective Characteristics of Molecularly Imprinted Polymers for Edaravone.
Acta Academiae Medicine Zunyi, 31, (5), 444-447, (2008)
   

Pu JZ et al., Preparation and recognition of nifediprne molecularly imprinted polymer.
Acta Academiae Medicine Zunyi, 32, (2), 128-130, 135, (2009)
   

Pu JZ et al., Preparation and Selective Adsorption Study on the Molecular Imprinted Polymeric Microspheres of Felodipine.
Journal of Anhui Agricultural Sciences, 37, (24), 11369-11371, 11387, (2009)
   

Pu JZ et al., Preparation and Recognition of Felodipine molecularly imprinted polymer.
Journal of Kaili University, 27, (3), 37-39, (2009)
   

Pu JZ, Synthesis and Characterization of Molecularly Imprinted Polymer of Desloratadine.
Journal of Mathematical Medicine, 22, (4), 437-440, (2009)
   

Pu P

Pu P et al., Preparation and Evaluation of a Stable Solid State Ion Selective Electrode of Polypyrrole/Electrochemically Reduced Graphene/Glassy Carbon Substrate for Soil Nitrate Sensing.
International Journal of Electrochemical Science, 11, 4779-4793, (2016)
   

Pu PL

Lou DW et al., Preparation of Benzoic Acid Molecularly Imprinted Polymers and Its Adsorption Property.
Chinese Journal of Analytical Chemistry, 38, (3), 401-404, (2010)
   

Pu QM

Pu QM et al., The determination of trace amount of lead ions in water by FAAS after preconcentration with imprinting of functional mesoporous silica.
Chinese Journal of Analysis Laboratory, 31, (9), 110-113, (2012)
   

Pu SZ

Yan LS et al., Preparation of Chloramphenicol- Imprinted Polymer.
Journal of Nanchang Institute of Aeronautical Technology (Natural Sciences), 19, (1), 1-5, (2005)
   

Pu WH

Tan YB et al., Electrochemical Determination of Bisphenol A Using a Molecularly Imprinted Chitosan-acetylene Black Composite Film Modified Glassy Carbon Electrode.
Electroanalysis, 28, (1), 189-196, (2016)
   

Pu YH

Qian K et al., Metal-organic frameworks supported surface-imprinted nanoparticles for the sensitive detection of metolcarb.
Biosensors and Bioelectronics, 79, 359-363, (2016)
   

Pu YP

Wang X et al., Molecular imprinted photonic crystal hydrogels for the rapid and label-free detection of imidacloprid.
Food Chemistry, 141, (4), 3947-3953, (2013)
   

Pu ZL

Xu JC et al., Simultaneous adsorption of Li(I) and Rb(I) by dual crown ethers modified magnetic ion imprinting polymers.
Applied Organometallic Chemistry, 33, (3), Article_e4778-(2019)
   

Puah PY

Rahman ML et al., Ion-Imprinted Polymer for Selective Separation of Cerium(III) Ions from Rare Earth Mixture.
Journal of Nanoscience and Nanotechnology, 19, (9), 5796-5802, (2019)
   

Pudjianto H

Hardoyono F et al., Identification of Bioactive Compounds in Ginger Based on Molecularly Imprinted Polymer Quartz Crystal Microbalance Gas Sensor.
IOP Conference Series: Materials Science and Engineering, 546, (3), Article032012-(2019)
   

Pufky-Heinrich D

Borchers K et al., Book chapter, Biomimetic Nanoparticles Providing Molecularly Defined Binding Sites - Protein-Featuring Structures versus Molecularly Imprinted Polymers, 
In: Cellular and Biomolecular Recognition: Synthetic and Non-Biological Molecules, Jelinek R (Ed.) Wiley-VCH: Weinheim, Ch. 2, 31-67, (2009)
   

Puga AM

Alvarez-Lorenzo C et al., Book chapter, Nanostructures and Nanostructured Networks for Smart Drug Delivery, 
In: Biomimetic Approaches for Biomaterials Development, Mano JF (Ed.) Wiley-VCH Verlag GmbH & Co. KGaA: Ch. 18, 417-458, (2012)
   

Puga JRT

Moreira FTC et al., Screen-printed electrode produced by printed-circuit board technology. Application to cancer biomarker detection by means of plastic antibody as sensing material.
Sensors and Actuators B: Chemical, 223, 927-935, (2016)
   

Puglisi C

Cantarella M et al., Molecularly imprinted polymer for selective adsorption of diclofenac from contaminated water.
Chemical Engineering Journal, 367, 180-188, (2019)
   

Puiggalí J

del Valle JL et al., Hydrogels for Biomedical Applications: Cellulose, Chitosan, and Protein/Peptide Derivatives.
Gels, 3, (3), ArticleNo27-(2017)
   

Puiu M

Puiu M et al., Book chapter, Biomimetic Sensors Based on Molecularly Imprinted Interfaces, 
In: Past, Present and Future Challenges of Biosensors and Bioanalytical Tools in Analytical Chemistry: A Tribute to Professor Marco Mascini, Palchetti I, Hansen PD, Barcelo D (Eds.) Elsevier: Ch. 5, 147-177, (2017)
   

Pulamagatta B

Binder WH et al., Book chapter, Biomimetic Principles in Macromolecular Science, 
In: Bioinspiration and Biomimicry in Chemistry: Reverse-Engineering Nature, Swiegers GF (Ed.) Wiley: Ch. 11, 323-366, (2012)
   

Puleo DA

Lee K et al., Protein-imprinted polysiloxane scaffolds.
Acta Biomaterialia, 3, (4), 515-522, (2007)
   

Brown ME et al., Protein binding to peptide-imprinted porous silica scaffolds.
Chemical Engineering Journal, 137, (1), 97-101, (2008)
   

Yu S et al., Proceeding, Preliminary study on repeatability of molecular recognition capability of a silica-based molecularly imprinted polymer, 
Art. No. 5516486, (2010)
   

Yu SA et al., Lysozyme-imprinted polymer synthesized using UV free-radical polymerization.
Talanta, 83, (1), 156-161, (2010)
   

Pulido-Marquez M

Liu XC et al., Molecularly imprinted receptors for glucose and sorbitol sensing.
Abstracts of Papers of the American Chemical Society, (ANYL), 120-120, (2006)
   

Liu XC et al., Molecularly imprinted receptors for glucose and sorbitol sensing.
Abstracts of Papers of the American Chemical Society, 231, (ANYL), 204-204, (2006)
   

Pulidori E

Campanella B et al., New polymeric sorbent for the solid-phase extraction of indole-3-acetic acid from plants followed by liquid chromatography - Fluorescence detector.
Microchemical Journal, 128, 68-74, (2016)
   

Pulkrabova J

Drabova L et al., Rapid determination of polycyclic aromatic hydrocarbons (PAHs) in tea using two-dimensional gas chromatography coupled with time of flight mass spectrometry.
Talanta, 100, 207-216, (2012)
   

Drabova L et al., Application of solid phase extraction and two-dimensional gas chromatography coupled with time-of-flight mass spectrometry for fast analysis of polycyclic aromatic hydrocarbons in vegetable oils.
Food Control, 33, (2), 489-497, (2013)
   

Pulli T

Vikholm-Lundin I et al., A comparative evaluation of molecular recognition by monolayers composed of synthetic receptors or oriented antibodies.
Biosensors and Bioelectronics, 24, (4), 1036-1038, (2008)
   

Pum D

Ladenhauf EM et al., S-layer based biomolecular imprinting.
RSC Advances, 5, (102), 83558-83564, (2015)
   

Phan NVH et al., Combined Layer/Particle Approaches in Surface Molecular Imprinting of Proteins: Signal Enhancement and Competition.
Sensors, 18, (1), ArticleNo180-(2018)
   

Pundir CS

Pundir CS et al., Creatinine sensors.
TrAC Trends in Analytical Chemistry, 50, 42-52, (2013)
   

Punia S

Kaur J et al., Book chapter, Need for the Advanced Technologies for Wastewater Treatment, 
In: Advances in Environmental Biotechnology, Kumar R, Sharma AK, Ahluwalia SS (Eds.) Springer: Singapore, 39-52, (2017)
   

Puniredd SR

Puniredd SR et al., Imprinting of metal receptors into multilayer polyelectrolyte films: fabrication and applications in marine antifouling.
Chemical Science, 6, (1), 372-383, (2015)
   

Punniyakoti S

Eersels K et al., Selective Identification of Macrophages and Cancer Cells Based on Thermal Transport through Surface-Imprinted Polymer Layers.
ACS Applied Materials & Interfaces, 5, (15), 7258-7267, (2013)
   

Puoci F

Puoci F et al., Spherical molecularly imprinted polymers (SMIPs) via a novel precipitation polymerization in the controlled delivery of sulfasalazine.
Macromolecular Bioscience, 4, (1), 22-26, (2004)
   

Puoci F et al., Molecularly imprinted solid phase extraction for detection of sudan I in food matrices.
Food Chemistry, 93, (2), 349-353, (2005)
   

Puoci F et al., Molecularly imprinted solid phase extraction for the selective HPLC determination of [alpha]-tocopherol in bay leaves.
Analytica Chimica Acta, 593, (2), 164-170, (2007)
   

Puoci F et al., Molecularly imprinted polymers for 5-fluorouracil release in biological fluids.
Molecules, 12, (4), 805-814, (2007)
   

Puoci F et al., Molecularly imprinted polymers for selective adsorption of cholesterol from aqueous environment.
E-Polymers, Art. No. 013-(2007)
   

Puoci F et al., Stimuli-responsive molecularly imprinted polymers for drug delivery: A review.
Current Drug Delivery, 5, (2), 85-96, (2008)
   

Puoci F et al., Molecularly imprinted solid-phase extraction for cholesterol determination in cheese products.
Food Chemistry, 106, (2), 836-842, (2008)
   

Puoci F et al., Molecularly Imprinted Polymers for [alpha]-Tocopherol Delivery.
Drug Delivery, 15, (4), 253-258, (2008)
   

Cirillo G et al., Imprinted hydrophilic nanospheres as drug delivery systems for 5-fluorouracil sustained release.
Journal of Drug Targeting, 17, (1), 72-77, (2009)
   

Curcio M et al., Selective recognition of methotrexate by molecularly imprinted polymers.
E-Polymers, Art. No. 078-(2009)
   

Puoci F et al., New restricted access materials combined to molecularly imprinted polymers for selective recognition/release in water media.
European Polymer Journal, 45, (6), 1634-1640, (2009)
   

Cirillo G et al., Gastro-intestinal sustained release of phytic acid by molecularly imprinted microparticles.
Pharmaceutical Development and Technology, 15, (5), 526-531, (2010)
   

Cirillo G et al., Molecularly imprinted polymers as drug delivery systems for the sustained release of glycyrrhizic acid.
Journal of Pharmacy and Pharmacology, 62, (5), 577-582, (2010)
   

Cirillo G et al., Molecular imprinting polymerization by Fenton reaction.
Colloid & Polymer Science, 288, (6), 689-693, (2010)
   

Curcio M et al., Selective Determination of Melamine in Aqueous Medium by Molecularly Imprinted Solid Phase Extraction.
Journal of Agricultural and Food Chemistry, 58, (22), 11883-11887, (2010)
   

Parisi OI et al., Surface modifications of molecularly imprinted polymers for improved template recognition in water media.
Journal of Polymer Research, 17, (3), 355-362, (2010)
   

Puoci F et al., Book chapter, Molecularly Imprinted Polymers (MIPs) in Biomedical Applications, 
In: Biopolymers, Elnashar M (Ed.) InTech: Ch. 28, 547-574, (2010)
   

Cirillo G et al., Molecularly imprinted polymers for the selective extraction of glycyrrhizic acid from liquorice roots.
Food Chemistry, 125, (3), 1058-1063, (2011)
   

Puoci F et al., Molecularly imprinted polymers in drug delivery: state of art and future perspectives.
Expert Opinion on Drug Delivery, 8, (10), 1379-1393, (2011)
   

Cirillo G et al., Book chapter, Carbon Nanotubes – Imprinted Polymers: Hybrid Materials for Analytical Applications, 
In: Materials Science and Technology, Hutagalung SD (Ed.) InTech: Ch. 8, 181-218, (2012)
   

Curcio M et al., Quercetin-Imprinted Nanospheres as Novel Drug Delivery Devices.
Journal of Functional Biomaterials, 3, (2), 269-282, (2012)
   

Puoci F et al., Selective extraction and purification of gallic acid from actual site olive mill wastewaters by means of molecularly imprinted microparticles.
Chemical Engineering Journal, 198-199, 529-535, (2012)
   

Puoci F et al., Imprinted microspheres doped with carbon nanotubes as novel electroresponsive drug-delivery systems.
Journal of Applied Polymer Science, 130, (2), 829-834, (2013)
   

Parisi OI et al., Magnetic molecularly imprinted polymers (MMIPs) for carbazole derivative release in targeted cancer therapy.
Journal of Materials Chemistry B, 2, (38), 6619-6625, (2014)
   

Parisi OI et al., Book chapter, Stimuli-responsive Molecularly Imprinted Polymers, 
In: Chemoresponsive Materials: Stimulation by Chemical and Biological Signals, Schneider HJ (Ed.) The Royal Society of Chemistry: Ch. 13, 364-383, (2015)
   

Algieri C et al., Development of novel hybrid imprinted membranes for selective recovery of theophylline.
Separation and Purification Technology, 192, 513-519, (2018)
   

Parisi IO et al., Molecularly Imprinted Microrods via Mesophase Polymerization.
Molecules, 23, (1), ArticleNo63-(2018)
   

Parisi OI et al., Smart Bandage Based on Molecularly Imprinted Polymers (MIPs) for Diclofenac Controlled Release.
Pharmaceuticals, 11, (4), ArticleNo93-(2018)
   

Scrivano L et al., Molecularly imprinted hydrogels for sustained release of sunitinib in breast cancer therapy.
Polymers for Advanced Technologies, 30, (3), 743-748, (2019)
   

Parisi OI et al., Design and development of plastic antibodies against SARS-CoV-2 RBD based on molecularly imprinted polymers that inhibit in vitro virus infection.
Nanoscale, 13, (40), 16885-16899, (2021)
   

Pupin RR

Ben Aissa A et al., Magnetic molecularly imprinted polymer for the isolation and detection of biotin and biotinylated biomolecules.
Biosensors and Bioelectronics, 88, 101-108, (2017)
   

Bergamin B et al., A New Electrochemical Platform Based on a Polyurethane Composite Electrode Modified with Magnetic Nanoparticles Coated with Molecularly Imprinted Polymer for the Determination of Estradiol Valerate in Different Matrices.
Journal of the Brazilian Chemical Society, 30, (11), 2344-2354, (2019)
   

Pupin RR et al., Magnetic molecularly imprinted polymers obtained by photopolymerization for selective recognition of penicillin G.
Journal of Applied Polymer Science, 137, (13), Article48496-(2020)
   

Marfà J et al., Magnetic-molecularly imprinted polymers in electrochemical sensors and biosensors.
Analytical and Bioanalytical Chemistry, 413, (24), 6141-6157, (2021)
   

Puranik D

Singh A et al., Book chapter, Incorporation of nano-particle sites in polymer matrix by metal ion imprinting, 
In: Surface-controlled nanoscale materials for high added value, Gonsalves KE, Baraton M-I, Singh R, Hofmann H, Chen JX, Akkara JA (Eds.) Materials Research Society: Warrendale, Ch. 57, 199-207, (1998)
   

Singh A et al., Towards achieving selectivity in metal ion binding by fixing ligand-chelator complex geometry in polymers.
Reactive and Functional Polymers, 44, (1), 79-89, (2000)
   

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Puri BK et al., A new polymeric adsorbent for screening and pre-concentration of organotin compounds in sediments and seawater samples.
Spectrochimica Acta Part B-Atomic Spectroscopy, 59, (2), 209-214, (2004)
   

Purkait MK

Arabi M et al., Novel strategy for synthesis of magnetic dummy molecularly imprinted nanoparticles based on functionalized silica as an efficient sorbent for the determination of acrylamide in potato chips: Optimization by experimental design methodology.
Talanta, 154, 526-532, (2016)
   

Purohit NS

Patel RP et al., An overview of silica aerogels.
International Journal of ChemTech Research, 1, (4), 1052-1057, (2009)
   

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Lauceri R et al., From achiral porphyrins to template-imprinted chiral aggregates and further. Self-replication of chiral memory from scratch.
Journal of the American Chemical Society, 124, (6), 894-895, (2002)
   

Lauceri R et al., Transfer, memory and amplification of chirality in porphyrin aggregates.
Supramolecular Chemistry, 17, (1-2), 61-66, (2005)
   

Purrello R, Chiral memory in porphyrin aggregates.
Abstracts of Papers of the American Chemical Society, 229, (INOR), 470-470, (2005)
   

Matassa R et al., Supramolecular Structure of Extrinsically Chiral Porphyrin Hetero-Assemblies and Achiral Analogues.
Advanced Materials, 19, (22), 3961-3967, (2007)
   

Lauceri R et al., Chiral memory: Induction, amplification, and switching in porphyrin assemblies.
Chirality, 20, (3-4), 411-419, (2008)
   

Gaeta M et al., Chirality of self-assembled achiral porphyrins induced by chiral Zn(II) Schiff-base complexes and maintained after spontaneous dissociation of the templates: a new case of chiral memory.
Chemical Communications, 52, (55), 8518-8521, (2016)
   

Pushkala S

Yoshimi Y et al., Metaniche session 2016: Tailor-made sensors for rapid Therapeutic Drug Monitoring - Interactions between Biomaterial Physicists, Chemical Engineers and Clinicians for successful translation of technologies in Healthcare.
Journal of Stem Cells & Regenerative Medicine, 12, (2), 105-107, (2016)
   

Pushkarev V

Lawton TJ et al., Long Range Chiral Imprinting of Cu(110) by Tartaric Acid.
The Journal of Physical Chemistry C, 117, (43), 22290-22297, (2013)
   

Pusta A

Feier B et al., Electrochemical Sensor Based on Molecularly Imprinted Polymer for the Detection of Cefalexin.
Biosensors, 9, (1), ArticleNo31-(2019)
   

Pustam AN

Pustam AN et al., Engineering selectivity into polymer-supported reagents for transition metal ion complex formation.
Reactive and Functional Polymers, 70, (8), 545-554, (2010)
   

Putman JC

Putman JC et al., Screening Petroleum Crude Oils for ARN Tetraprotic Acids with Molecularly Imprinted Polymers.
Energy & Fuels, 30, (7), 5651-5655, (2016)
   

Putra BR

Muppariqoh NM et al., Detection of vitamin b 1 (thiamine) using modified carbon paste electrodes with polypyrrole.
IOP Conference Series: Earth and Environmental Science, 58, (1), ArticleNo012050-(2017)
   

Puttipanyalears C

Piacham T et al., Synthesis and Theoretical Study of Molecularly Imprinted Nanospheres for Recognition of Tocopherols.
Molecules, 14, (8), 2985-3002, (2009)
   

Putzeys T

Stilman W et al., Detection of yeast strains by combining surface-imprinted polymers with impedance-based readout.
Sensors and Actuators B: Chemical, 340, Article129917-(2021)
   

Puustinen J

Aikio S et al., Disposable (bio)chemical integrated optical waveguide sensors implemented on roll-to-roll produced platforms.
RSC Advances, 6, (56), 50414-50422, (2016)
   

Puy J

Garcés JL et al., Affinity distribution functions in multicomponent heterogeneous adsorption. Analytical inversion of isotherms to obtain affinity spectra.
Journal of Chemical Physics, 120, (19), 9266-9276, (2004)
   

Garcés JL et al., Conditional equilibrium constants in multicomponent heterogeneous adsorption: The conditional affinity spectrum.
Journal of Chemical Physics, 124, (4), Art. No. 044710-(2006)
   

Puy JY

Duy SV et al., Molecularly imprinted polymer for analysis of zidovudine and stavudine in human serum by liquid chromatography-mass spectrometry.
Journal of Chromatography B, 877, (11-12), 1101-1108, (2009)
   

Roy B et al., Synthesis and Evaluation of a Molecularly Imprinted Polymer for Selective Solid-Phase Extraction of Irinotecan from Human Serum Samples.
Journal of Functional Biomaterials, 3, (1), 131-142, (2012)
   

Puyol M

Almeida SAA et al., Novel LTCC-potentiometric microfluidic device for biparametric analysis of organic compounds carrying plastic antibodies as ionophores: Application to sulfamethoxazole and trimethoprim.
Biosensors and Bioelectronics, 30, (1), 197-203, (2011)
   

Puzio K

Puzio K et al., Combination of computational methods, adsorption isotherms and selectivity tests for the conception of a mixed non-covalent-semi-covalent molecularly imprinted polymer of vanillin.
Analytica Chimica Acta, 790, 47-55, (2013)
   

Puzio K et al., Molecularly imprinted polymer dedicated to the extraction of glyphosate in natural waters.
Journal of Chromatography A, 1361, 1-8, (2014)
   

Py C

Voicu R et al., Nanotemplating for Two-Dimensional Molecular Imprinting.
Langmuir, 23, (10), 5452-5458, (2007)
   

Pyrzynska K

Pyrzynska K et al., On-line coupling of solid phase extraction sample processing with high-performance liquid chromatography.
Critical Reviews in Analytical Chemistry, 32, (3), 227-243, (2002)
   

Pyrzynska K, Novel selective sorbents for solid-phase extraction.
Chemia Analityczna, 48, (5), 781-795, (2003)
   

Pyrzynska K, Book chapter, Solid-Phase Extraction for Enrichment and Separation of Herbicides, 
In: Herbicides, Theory and Applications, Soloneski S, Larramendy ML (Eds.) InTech: Ch. 16, 325-344, (2011)
   

Pyrzynska K, Book chapter, The Use of Novel Materials as Solid-Phase Extractors for Chromatographic Analysis, 
In: Advances in Chromatography, Volume 49, Grushka E, Grinberg N (Eds.) CRC Press: Boca Raton, Fl., 365-399, (2011)
   

Pyrzynska K, Book chapter, Application of Solid Sorbents for Enrichment and Separation of Platinum Metal Ions, 
In: Platinum Metals in the Environment, Zereini F, Wiseman CLS (Eds.) Springer-Verlag: Berlin, Heidelberg, Ch. 5, 67-78, (2015)
   

Pyrzynska K et al., Application of solid phase extraction procedures for rare earth elements determination in environmental samples.
Talanta, 154, 15-22, (2016)
   

Pyshnaya IA

Dmitrienko EV et al., A simple approach to prepare molecularly imprinted polymers from nylon-6.
Journal of Molecular Recognition, 26, (8), 368-375, (2013)
   

Dmitrienko EV et al., Molecularly imprinted polymers for biomedical and biotechnological applications.
Russian Chemical Reviews, 85, (5), 513-536, (2016)
   

Pyshnyi DV

Dmitrienko EV et al., A simple approach to prepare molecularly imprinted polymers from nylon-6.
Journal of Molecular Recognition, 26, (8), 368-375, (2013)
   

Dmitrienko EV et al., Molecularly imprinted polymers for biomedical and biotechnological applications.
Russian Chemical Reviews, 85, (5), 513-536, (2016)
   

Pérez L

Urraca JL et al., Magnetic Field-Induced Polymerization of Molecularly Imprinted Polymers.
The Journal of Physical Chemistry C, 122, (18), 10189-10196, (2018)
   

Pérez Martínez CJ

Valencia Castro LE et al., Chemical polymerization of pyrrole in the presence of l-serine or l-glutamic acid: Electrically controlled amoxicillin release from composite hydrogel.
Journal of Applied Polymer Science, 132, (15), Article No 41804-(2015)
   

Pérez N

Aherne A et al., Bacteria-mediated lithography of polymer surfaces.
Journal of the American Chemical Society, 118, (36), 8771-8772, (1996)
   

Pérez N et al., Molecularly imprinted nanoparticles prepared by core-shell emulsion polymerization.
Journal of Applied Polymer Science, 77, (8), 1851-1859, (2000)
   

Pérez N et al., Surface imprinting of cholesterol on submicrometer core-shell emulsion particles.
Macromolecules, 34, (4), 830-836, (2001)
   

Pérez N et al., Book chapter, Surface imprinting of microorganisms, 
In: Molecularly Imprinted Polymers: Man-Made Mimics of Antibodies and their Applications in Analytical Chemistry, Sellergren B (Ed.) Elsevier: Amsterdam, Ch. 11, 295-304, (2001)
   

Pérez S

Farré M et al., Achievements and future trends in the analysis of emerging organic contaminants in environmental samples by mass spectrometry and bioanalytical techniques.
Journal of Chromatography A, 1259, 86-99, (2012)
   

Pérez-Ameneiro M

Cela-Pérez MC et al., Selective removal of ATP degradation products from food matrices II: Rapid screening of hypoxanthine and inosine by molecularly imprinted matrix solid-phase dispersion for evaluation of fish freshness.
Talanta, 135, 58-66, (2015)
   

Pérez-Bendito D

Ballesteros-Gómez A et al., Analytical methods for the determination of bisphenol A in food.
Journal of Chromatography A, 1216, (3), 449-469, (2009)
   

Rubio S et al., Recent Advances in Environmental Analysis.
Analytical Chemistry, 81, (12), 4601-4622, (2009)
   

Pérez-Conde C

Turiel E et al., Molecular recognition in a propazine-imprinted polymer and its application to the determination of triazines in environmental samples.
Analytical Chemistry, 73, (21), 5133-5141, (2001)
   

Cacho C et al., Clean-up of triazines in vegetable extracts by molecularly-imprinted solid-phase extraction using a propazine-imprinted polymer.
Analytical and Bioanalytical Chemistry, 376, (4), 491-496, (2003)
   

Cacho C et al., Characterisation and quality assessment of binding sites on a propazine-imprinted polymer prepared by precipitation polymerisation.
Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 804, (1), 83-83, (2004)
   

Cacho C et al., Molecularly imprinted capillary electrochromatography for selective determination of thiabendazole in citrus samples.
Journal of Chromatography A, 1179, (2), 216-223, (2008)
   

Cacho C et al., Molecularly imprinted polymers: An analytical tool for the determination of benzimidazole compounds in water samples.
Talanta, 78, (3), 1029-1035, (2009)
   

Pérez-Conde MC

Luaces MD et al., Chemiluminescence analysis of enrofloxacin in surface water using the tris(1, 10-phenantroline)-ruthenium(II)/peroxydisulphate system and extraction with molecularly imprinted polymers.
Microchemical Journal, 110, 458-464, (2013)
   

Pérez-Martín RI

Ferreira VRA et al., Cationic imprinting of Pb(II) within composite networks based on bovine or fish chondroitin sulfate.
Journal of Molecular Recognition, 31, (3), ArticleNoe2614-(2018)
   

Pérez-Moral N

Pérez-Moral N, Proceeding, Molecular imprinting of polymeric core-shell nanoparticles, 
Shea KJ, Yan M, Roberts MJ, Cremer PS, Crooks RM, Sailor MJ (Eds.), 61-66, (2002)
   

Pérez-Moral N et al., Novel MIP formats.
Bioseparation, 10, (6), 287-299, (2002)
   

Pérez-Moral N et al., Noncovalent imprinting in the shell of core-shell nanoparticles.
Langmuir, 20, (9), 3775-3779, (2004)
   

Pérez-Moral N et al., Comparative study of imprinted polymer particles prepared by different polymerisation methods.
Analytica Chimica Acta, 504, (1), 15-21, (2004)
   

Pérez-Moral N et al., Book chapter, MIP formats for analytical applications, 
In: Molecular imprinting of polymers, Piletsky S, Turner A (Eds.) Landes Bioscience: Georgetown, Texas, Ch. 1, 1-11, (2006)
   

Pérez-Moral N et al., Direct rapid synthesis of MIP beads in SPE cartridges.
Biosensors and Bioelectronics, 21, (9), 1798-1803, (2006)
   

Zourob M et al., A micro-reactor for preparing uniform molecularly imprinted polymer beads.
Lab on a Chip, 6, (2), 296-301, (2006)
   

Pérez-Moral N et al., Molecularly Imprinted Multi-Layer Core-Shell Nanoparticles - A Surface Grafting Approach.
Macromolecular Rapid Communications, 28, (22), 2170-2175, (2007)
   

Pérez-Quintanilla D

Pérez-Quintanilla D et al., Factors affecting Hg(II) adsorption on hybrid nanostructured silicas: influence of the synthesis conditions.
Journal of Porous Materials, 21, (1), 71-80, (2014)
   

Pérez-Quintanilla D et al., Preparation of hybrid organic-inorganic mesoporous silicas applied to mercury removal from aqueous media: Influence of the synthesis route on adsorption capacity and efficiency.
Journal of Colloid and Interface Science, 472, 126-134, (2016)
   

Sierra I et al., Approaches for enantioselective resolution of pharmaceuticals by miniaturised separation techniques with new chiral phases based on nanoparticles and monolithis.
Electrophoresis, 37, (19), 2538-2553, (2016)
   

Casado N et al., Current development and applications of ordered mesoporous silicas and other sol-gel silica-based materials in food sample preparation for xenobiotics analysis.
TrAC Trends in Analytical Chemistry, 88, 167-184, (2017)
   

Gañán J et al., Evaluation of mesoporous imprinted silicas as MSPD selective sorbents of ketoprofen in powder milk.
Materials Letters, 197, 5-7, (2017)
   

Pérez-Rodríguez NA

Garza-Montelongo E et al., Molecularly Imprinted Polymer for the Binding and Recognition of Basic Blue 41 Dye.
Journal of the Chilean Chemical Society, 66, (2), 5215-5219, (2021)
   

Pérez-Silva I

Ibarra IS et al., Sample treatment based on molecularly imprinted polymers for the analysis of veterinary drugs in food samples: a review.
Analytical Methods, 12, (23), 2958-2977, (2020)
   

Périgaud C

Duy SV et al., Molecularly imprinted polymer for analysis of zidovudine and stavudine in human serum by liquid chromatography-mass spectrometry.
Journal of Chromatography B, 877, (11-12), 1101-1108, (2009)
   

Roy B et al., Synthesis and Evaluation of a Molecularly Imprinted Polymer for Selective Solid-Phase Extraction of Irinotecan from Human Serum Samples.
Journal of Functional Biomaterials, 3, (1), 131-142, (2012)
   

Pérollier C

Ali WH et al., Solid-phase extraction using molecularly imprinted polymers for selective extraction of a mycotoxin in cereals.
Journal of Chromatography A, 1217, (43), 6668-6673, (2010)
   

Lucci P et al., Molecularly imprinted polymer solid-phase extraction for detection of zearalenone in cereal sample extracts.
Analytica Chimica Acta, 672, (1-2), 15-19, (2010)
   

Ray JV et al., Smart coumarin-tagged imprinted polymers for the rapid detection of tamoxifen.
Analytical and Bioanalytical Chemistry, 408, (7), 1855-1861, (2016)
   

Püttmann C

Bers K et al., Heat-Transfer Resistance Measurement Method (HTM)-Based Cell Detection at Trace Levels Using a Progressive Enrichment Approach with Highly Selective Cell-Binding Surface Imprints.
Langmuir, 30, (12), 3631-3639, (2014)
   

Eersels K et al., Improving the sensitivity of the heat-transfer method (HTM) for cancer cell detection with optimized sensor chips.
physica status solidi (a), 212, (6), 1320-1326, (2015)
   

Eersels K et al., Heat-Transfer-Method-Based Cell Culture Quality Assay through Cell Detection by Surface Imprinted Polymers.
Langmuir, 31, (6), 2043-2050, (2015)
   

Pütz M

Graniczkowska K et al., Capacitive sensing of N-formylamphetamine based on immobilized molecular imprinted polymers.
Biosensors and Bioelectronics, 92, 741-747, (2017)