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This file last updated: 13/12/2021

Na GS

Yang F et al., Preparation and application of a molecularly imprinted monolith for specific recognition of domoic acid.
Analytical and Bioanalytical Chemistry, 410, (6), 1845-1854, (2018)
   

Na Q

Zhang YP et al., Preparation and Evaluation of Melamine Molecularly Imprinted Polymers by Thermal- and Photo-initiation Methods.
Journal of the Chinese Chemical Society, 60, (2), 204-211, (2013)
   

Na SB

Fan HT et al., Preparation, characterization, and selective adsorption for lead(II) of imprinted silica-supported organic-inorganic hybrid sorbent functionalized with chelating S, N-donor atoms.
Monatshefte für Chemie - Chemical Monthly, 146, (3), 459-463, (2015)
   

Liu MX et al., Selective adsorption of lead(II) from aqueous solution by ion-imprinted PEI-functionalized silica sorbent: studies on equilibrium isotherm, kinetics, and thermodynamics.
Desalination and Water Treatment, 57, (7), 3270-3282, (2016)
   

Na Z

Xie ZQ et al., Synthesis and characterization of genistein magnetic molecularly imprinted polymers and their application in soy sauce products.
Scientific Reports, 11, (1), Article23183-(2021)
   

Na-Ranong D

Yuangsawad R et al., Synthesis of Molecularly Imprinted Polymer for Sterol Separation.
MATEC Web of Conferences, 62, ArticleNo04006-(2016)
   

Ladadok C et al., Synthesis of Moleculary Imprinted Polymer Originated from TFMAA and TRIM for Sterol Separation.
Chemical Engineering Transactions, 70, 475-480, (2018)
   

Naaman R

Cohen SR et al., Thermally induced disorder in organized organic monolayers on solid substrates.
Journal of Physical Chemistry, 90, (14), 3054-3056, (1986)
   

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

Naat JN

Neolaka YAB et al., A Cr(VI)-imprinted-poly(4-VP-co-EGDMA) sorbent prepared using precipitation polymerization and its application for selective adsorptive removal and solid phase extraction of Cr(VI) ions from electroplating industrial wastewater.
Reactive and Functional Polymers, 147, Article104451-(2020)
   

Nabavi SA

Nabavi SA et al., Production of spherical mesoporous molecularly imprinted polymer particles containing tunable amine decorated nanocavities with CO2 molecule recognition properties.
Chemical Engineering Journal, 306, 214-225, (2016)
   

Nabavi SA et al., Production of molecularly imprinted polymer particles with amide-decorated cavities for CO2 capture using membrane emulsification/suspension polymerisation.
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 521, 231-238, (2017)
   

Nabavi SA et al., Synthesis of Size-Tunable CO2-Philic Imprinted Polymeric Particles (MIPs) for Low-Pressure CO2 Capture Using Oil-in-Oil Suspension Polymerization.
Environmental Science & Technology, 51, (19), 11476-11483, (2017)
   

Nabid MR

Abedi M et al., Synthesis and characterization of a novel acryl amide-based yttrium imprinted sorbent via the ATRP approach for the preparation of medical-grade 90Y.
Radiochimica Acta, 104, (2), 117-129, (2016)
   

Shahnazi A et al., Synthesis of surface molecularly imprinted poly-o-phenylenediamine/TiO2/carbon nanodots with a highly enhanced selective photocatalytic degradation of pendimethalin herbicide under visible light.
Reactive and Functional Polymers, 151, Article104580-(2020)
   

Nabil GM

Mahmoud ME et al., Imprinting "Nano-SiO2-Crosslinked Chitosan-Nano-TiO2" Polymeric Nanocomposite for Selective and Instantaneous Microwave-Assisted Sorption of Hg(II) and Cu(II).
ACS Sustainable Chemistry & Engineering, 6, (4), 4564-4573, (2018)
   

Nabizadeh R

Heravizadeh OR et al., Synthesis of molecular imprinted polymer nanoparticles followed by application of response surface methodology for optimization of metribuzin extraction from urine samples.
Chemical Papers, 72, (12), 3057-3068, (2018)
   

Heravizadeh OR et al., Synthesis of molecularly imprinted nanoparticles for selective exposure assessment of permethrin: optimization by response surface methodology.
Journal of Environmental Health Science and Engineering, 17, (1), 393-406, (2019)
   

Nacak FM

Muti M et al., A Novel DNA Probe Based on Molecularly Imprinted Polymer Modified Electrode for the Electrochemical Monitoring of DNA.
Electroanalysis, 27, (6), 1368-1377, (2015)
   

Nacano LR

Nacano LR et al., Selective Sorbent Enrichment of Nickel Ions from Aqueous Solutions using a Hierarchically Hybrid Organic-Inorganic Polymer Based on Double Imprinting Concept.
Journal of the Brazilian Chemical Society, 21, (3), 419-430, (2010)
   

Nacapricha D

Amatatongchai M et al., Selective amperometric flow-injection analysis of carbofuran using a molecularly-imprinted polymer and gold-coated-magnetite modified carbon nanotube-paste electrode.
Talanta, 179, 700-709, (2018)
   

Amatatongchai M et al., Highly sensitive and selective electrochemical paper-based device using a graphite screen-printed electrode modified with molecularly imprinted polymers coated Fe3O4@Au@SiO2 for serotonin determination.
Analytica Chimica Acta, 1077, 255-265, (2019)
   

Amatatongchai M et al., Novel amino-containing molecularly-imprinted polymer coating on magnetite-gold core for sensitive and selective carbofuran detection in food.
Microchemical Journal, 158, Article105298-(2020)
   

Nontawong N et al., Novel dual-sensor for creatinine and 8-hydroxy-2'-deoxyguanosine using carbon-paste electrode modified with molecularly imprinted polymers and multiple-pulse amperometry.
Sensors and Actuators B: Chemical, 334, Article129636-(2021)
   

Nontawong N et al., Smart sensor for assessment of oxidative/nitrative stress biomarkers using a dual-imprinted electrochemical paper-based analytical device.
Analytica Chimica Acta, 1191, Article339363-(2022)
   

Naczk M

Naczk M et al., Extraction and analysis of phenolics in food.
Journal of Chromatography A, 1054, (1-2), 95-111, (2004)
   

Nadali A

Nadali A et al., Synthesize and application of magnetic molecularly imprinted polymers (mag-MIPs) to extract 1-Aminopyrene from the human urine sample.
Journal of Environmental Chemical Engineering, 9, (5), Article106253-(2021)
   

Naderi M

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)
   

Nadim AH

Nadim AH et al., Facile imprinted polymer for label-free highly selective potentiometric sensing of proteins: case of recombinant human erythropoietin.
Analytical and Bioanalytical Chemistry, 413, (14), 3611-3623, (2021)
   

Nadim AH et al., Optimization of polydopamine imprinted polymer for label free sensitive potentiometric determination of proteins: Application to recombinant human erythropoietin sensing in different matrices.
Microchemical Journal, 167, Article106333-(2021)
   

Nadoushan SA

Zahedi P et al., Morphological, thermal and drug release studies of poly (methacrylic acid)-based molecularly imprinted polymer nanoparticles immobilized in electrospun poly ([epsilon]-caprolactone) nanofibers as dexamethasone delivery system.
Korean Journal of Chemical Engineering, 34, (7), 2110-2118, (2017)
   

Naeimi H

Naeimi H et al., Highly efficient copper-imprinted functionalized mesoporous organosilica nanocomposites as a recyclable catalyst for click synthesis of 1, 2, 3-triazole derivatives under ultrasound irradiation: multivariate study by factorial design of experiments.
RSC Advances, 5, (20), 15006-15016, (2015)
   

Naeimi H et al., Designable Metal/PMO Nanocomposite and Preparation by a Surface Imprinting Technique Combined with a Sol-Gel Process for Catalytic Click Reaction.
Bulletin of the Chemical Society of Japan, 89, (2), 212-219, (2016)
   

Naeimpoor F

Rabieizadeh M et al., Monolithic molecularly imprinted cryogel for lysozyme recognition.
Journal of Separation Science, 37, (20), 2983-2990, (2014)
   

Mofrad SMRK et al., Effect of electrostatic functional monomers on lysozyme recognition by molecularly imprinted hydrogel.
Journal of Applied Polymer Science, 132, (5), Article No 41366-(2015)
   

Mofrad SMRK et al., Synthesis of lysozyme imprinted column with macroporous structure and enhanced selectivity: Utilization of cryogelation technique and electrostatic functional monomers.
Journal of Applied Polymer Science, 133, (3), ArticleNo42880-(2016)
   

Naenna T

Nantasenamat C et al., Proceeding, The use of artificial neural network for the prediction of imprinting factor of molecularly imprinted polymer, 
Art. No. E0118, (2005)
   

Nantasenamat C et al., Prediction of selectivity index of pentachlorophenol-imprinted polymers.
EXCLI Journal, 5, 150-163, (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)
   

Nantasenamat C et al., Quantitative structure-imprinting factor relationship of molecularly imprinted polymers.
Biosensors and Bioelectronics, 22, (12), 3309-3317, (2007)
   

Nantasenamat C et al., A practical overview of quantitative structure-activity relationship.
EXCLI Journal, 8, 74-88, (2009)
   

Nafie NL

Qaddafi M et al., Imprinted Nickel-Cobalt Chitosan as a Specific Adsorbent of Nickel (Ni2+) and Cobalt (Co2+).
International Journal ofScientific and Technology Research, 3, (9), 37-42, (2014)
   

Nag A

Zia AI et al., Proceeding, Improved detection limits for phthalates by selective solid-phase micro-extraction, 
733-738, (2015)
   

Nag S

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)
   

Nagahori N

Nagahori N et al., Synthetic studies on specific glyco-ligands by molecular imprinting method.
Abstracts of Papers of the American Chemical Society, 215, (CARB), 043-043, (1998)
   

Nagai K

Yashima E et al., Helical Polymers: Synthesis, Structures, and Functions.
Chemical Reviews, 109, (11), 6102-6211, (2009)
   

Nagai Y

Yoshikawa M et al., Proceeding, Chiral recognition ability of oligopeptide derivatives consisiting of glutamyl residues, 
625, (2002)
   

Yoshikawa M et al., Chiral recognition ability of oligopeptide derivatives consisting of glutamyl residues.
Journal of Applied Polymer Science, 95, (6), 1302-1309, (2005)
   

Naganawa R

Hirayama K et al., Preparation of a sensor device with specific recognition sites for acetaldehyde by molecular imprinting technique.
Sensors and Actuators B: Chemical, 86, (1), 20-25, (2002)
   

Kanekiyo Y et al., Proceeding, Endocrine disruptor-responsive QCM sensors constructed using molecularly imprinted amylose as sensing elements, 
1661, (2002)
   

Kanekiyo Y et al., Molecular imprinting of bisphenol A and alkylphenols using amylose as a host matrix.
Chemical Communications, (22), 2698-2699, (2002)
   

Kanekiyo Y et al., pH-responsive molecularly imprinted polymers.
Angewandte Chemie International Edition, 42, (26), 3014-3016, (2003)
   

Nagano J

Matsui J et al., Molecular Imprinting within a Single Peptide Molecule for Synthesizing a Water-Soluble ATP Receptor.
Pept. Sci., 396-397, (2006)
   

Matsui J et al., An approach to peptide-based ATP receptors by a combination of random selection, rational design, and molecular imprinting.
Biosensors and Bioelectronics, 25, (3), 563-567, (2009)
   

Nagaoka S

Sumaoka J et al., Recognition of bioactive oligopeptide by imprinted cyclodextrin polymer in water.
Polymer Preprints, Japan, 55, (1), 1668-(2006)
   

Song SH et al., Recognition of Solution Structures of Peptides by Molecularly Imprinted Cyclodextrin Polymers.
Macromolecules, 40, (10), 3530-3532, (2007)
   

Nagaoka S et al., Reconfirmation of Recognition Site in Composites of Imprinted beta-Cyclodextrin Polymer/Solid Support as Stationary Phase of HPLC.
Chemistry Letters, 37, (11), 1148-1149, (2008)
   

Nagaoka T

Deore B et al., Overoxidized polypyrrole with dopant complementary cavities as a new molecularly imprinted polymer matrix.
Analytical Sciences, 15, (9), 827-828, (1999)
   

Chen ZD et al., Recognition of vitamin K-1 with a molecularly imprinted self-assembled monolayer film.
Bunseki Kagaku, 49, (7), 543-545, (2000)
   

Chen ZD et al., Enantioselective uptake of amino acid with overoxidized polypyrrole colloid templated with L-lactate.
Analyst, 125, (12), 2249-2254, (2000)
   

Deore B et al., Potential-induced enantioselective uptake of amino acid into molecularly imprinted overoxidized polypyrrole.
Analytical Chemistry, 72, (17), 3989-3994, (2000)
   

Deore B et al., Enantioselective Uptake of Amino Acids with Molecularly Imprinted Overoxidized Polypyrrole.
Review of Polarography, 47, (2), 76-86, (2001)
   

Zhou YX et al., Chiral selective molecular sensors for amino acids by electrochemical detection.
Abstracts of Papers of the American Chemical Society, 221, (ANYL), 31-31, (2001)
   

Deore B et al., Enantioselective uptake of amino acids using an electromodulated column packed with carbon fibres modified with overoxidised polypyrrole.
Analyst, 127, (7), 935-939, (2002)
   

Okuno H et al., Characterization of overoxidized polypyrrole colloids imprinted with L-lactate and their application to enantioseparation of amino acids.
Analytical Chemistry, 74, (16), 4184-4190, (2002)
   

Shiigi H et al., Highly selective molecularly imprinted overoxidized polypyrrole colloids: One-step preparation technique.
Analytical Sciences, 18, (1), 41-44, (2002)
   

Shiigi H et al., Fabrication process and characterization of a novel structural isomer sensor - Molecularly imprinted overoxidized polypyrrole film.
Electrochemical and Solid State Letters, 6, (1), H1-H3, (2003)
   

Shiigi H et al., Molecularly imprinted overoxidized polypyrrole colloids: Promising materials for molecular recognition.
Microchimica Acta, 143, (2-3), 155-162, (2003)
   

Shiigi H et al., Development of a Skin Cholesterol Sensing Method Using a Molecularly Imprinted Self-assembled Monolayer Electrode.
Transactions of Japanese Society for Medical and Biological Engineering, 42, (3), 181-186, (2004)
   

Shiigi H et al., Molecular recognition for bile acids using a molecularly imprinted overoxidized polypyrrole film.
Journal of The Electrochemical Society, 152, (8), H129-H134, (2005)
   

Shiigi H et al., Development of the Skin Cholesterol Sensing Method Using a Molecularly Imprinted Electrode.
ECS Meeting Abstracts, MA2006-02, (47), 2084-2084, (2006)
   

Shiigi H et al., Development of Molecularly Imprinted Sterol Sensor and Non-invasive Detection.
Chem Sens, 22, (Supplement A), 145-147, (2006)
   

Tokonami S et al., Review: Micro- and nanosized molecularly imprinted polymers for high-throughput analytical applications.
Analytica Chimica Acta, 641, (1-2), 7-13, (2009)
   

Nagaoka T et al., Entrapment of Whole Cell Bacteria into Conducting Polymers.
Journal of Flow Injection Analysis, 29, (1), 7-10, (2012)
   

Shiigi H et al., Placement of Nanospace on an Electrode for Biosensing.
Analytical Sciences, 28, (11), 1037-1048, (2012)
   

Tokonami S et al., Book chapter, Molecularly Imprinted Overoxidized Polypyrrole Films for Sensor Applications from Enantiorecognition to Trace Analysis, 
In: Molecularly Imprinted Sensors, Li SJ, Ge Y, Piletsky SA, Lunec J (Eds.) Elsevier: Amsterdam, Ch. 4, 73-89, (2012)
   

Tokonami S et al., Label-Free and Selective Bacteria Detection Using a Film with Transferred Bacterial Configuration.
Analytical Chemistry, 85, (10), 4925-4929, (2013)
   

Tokonami S et al., Recognition of gram-negative and gram-positive bacteria with a functionalized conducting polymer film.
Research on Chemical Intermediates, 40, (6), 2327-2335, (2014)
   

Tokonami S et al., Detection of Biomaterials and Bacteria Using Functionalized Nano- and Micro-spaces.
Bunseki Kagaku, 64, (10), 727-736, (2015)
   

Kinoshita T et al., Shape Memory Characteristics of O157-Antigenic Cavities Generated on Nanocomposites Consisting of Copolymer-Encapsulated Gold Nanoparticles.
Analytical Chemistry, 89, (8), 4680-4684, (2017)
   

Shan XL et al., Spontaneous and specific binding of enterohemorrhagic Escherichia coli to overoxidized polypyrrole-coated microspheres.
Chemical Communications, 53, (27), 3890-3893, (2017)
   

Shan XL et al., Binding Constant of the Cell-shaped Cavity Formed on a Polymer for Escherichia coli O157.
Analytical Sciences, 34, (4), 483-486, (2018)
   

Shan XL et al., A rapid and specific bacterial detection method based on cell-imprinted microplates.
Analyst, 143, (7), 1568-1574, (2018)
   

Nagar A

Devanathan S et al., Subpicomolar sensing of [delta]-opioid receptor ligands by molecular-imprinted polymers using plasmon-waveguide resonance spectroscopy.
Analytical Chemistry, 77, (8), 2569-2574, (2005)
   

Nagata T

Nagata T et al., Monodispersed Molecularly Imprinted Polymer Beads with Enhanced Atrazine Retention Ability Synthesized with Polymeric Diluents.
Analytical Letters, 45, (9), 977-985, (2012)
   

Nagel B

Warsinke A et al., Towards Separation-Free Electrochemical Affinity Sensors by Using Antibodies, Aptamers, and Molecularly Imprinted Polymers - A Review.
Analytical Letters, 39, (13), 2507-2556, (2006)
   

Nagel S

Dai JJ et al., Colloidal crystal templated molecular imprinted polymer for the detection of 2-butoxyethanol in water contaminated by hydraulic fracturing.
Microchimica Acta, 185, (1), ArticleNo32-(2018)
   

Kadhem AJ et al., Photonic Molecularly Imprinted Polymer Film for the Detection of Testosterone in Aqueous Samples.
Polymers, 10, (4), ArticleNo349-(2018)
   

Naghipour A

Abbasi S et al., Enrichment of cardiovascular drugs using rhamnolipid bioaggregates after dispersive solid phase extraction based water compatible magnetic molecularly imprinted biopolymers.
Microchemical Journal, 157, Article104874-(2020)
   

Nagy G

Kiss L et al., Electropolymerized molecular imprinting on glassy carbon electrode for voltammetric detection of dopamine in biological samples.
Talanta, 160, 489-498, (2016)
   

Nagy L

Kiss L et al., Electropolymerized molecular imprinting on glassy carbon electrode for voltammetric detection of dopamine in biological samples.
Talanta, 160, 489-498, (2016)
   

Nagy ZK

Weiser D et al., Bioimprinted lipases in PVA nanofibers as efficient immobilized biocatalysts.
Tetrahedron, 72, (46), 7335-7342, (2016)
   

Nagy-Szakolczai A

Dorkó Z et al., The Selectivity of Polymers Imprinted with Amines.
Molecules, 23, (6), ArticleNo1298-(2018)
   

Nagy-Szakolczai A et al., New Methods to Study the Behavior of Molecularly Imprinted Polymers in Aprotic Solvents.
Polymers, 10, (9), ArticleNo1015-(2018)
   

Nagy-Szakolczai A et al., The molecular imprinting effect of propranolol and dibenzylamine as model templates: Binding strength and selectivity.
Analytica Chimica Acta, 1125, 258-266, (2020)
   

Nahavandifard F

Rouhani S et al., Molecular imprinting-based fluorescent optosensor using a polymerizable 1, 8-naphthalimide dye as a florescence functional monomer.
Sensors and Actuators B: Chemical, 197, 185-192, (2014)
   

Nahhas AF

Nahhas AF et al., The promising use of nano-molecular imprinted templates for improved SARS-CoV-2 detection, drug delivery and research.
Journal of Nanobiotechnology, 19, (1), Article305-(2021)
   

Nahiyoon RA

Farooq S et al., Synthesis of core-shell magnetic molecularly imprinted polymer for the selective determination of imidacloprid in apple samples.
Journal of Separation Science, 42, (14), 2455-2465, (2019)
   

Naidu CG

Varma NN et al., HPLC Bioassay of Elvitegravir using a Molecularly Imprinted Polymer Based Solid Phase Extraction in RAT Plasma: Application to Pharmacokinetic Studies.
Journal of Analytical Chemistry, 76, (10), 1172-1181, (2021)
   

Naidu GR

Krishna PG et al., Selective recognition of neodymium(III) using ion imprinted polymer particles.
Journal of Molecular Recognition, 18, (1), 109-116, (2005)
   

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)
   

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)
   

Naidu GRK

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., Molecularly imprinted polymer (biomimetic) based potentiometric sensor for atrazine.
Sensors and Actuators B: Chemical, 123, (1), 65-70, (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)
   

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)
   

Naidu R

Fang C et al., Potentiometric detection of AFFFs based on MIP.
Environmental Technology & Innovation, 5, 52-59, (2016)
   

Naik L

Lata K et al., Synthesis and application of cephalexin imprinted polymer for solid phase extraction in milk.
Food Chemistry, 184, 176-182, (2015)
   

Naim AA

Sanagi MM et al., Molecularly imprinted polymers for solid phase extraction of orghanophosphorus pesticides.
Malaysian Journal of Fundamental and Applied Sciences, 6, (1), 27-30, (2010)
   

See HH et al., Determination of triazine herbicides using membrane-protected carbon nanotubes solid phase membrane tip extraction prior to micro-liquid chromatography.
Journal of Chromatography A, 1217, (11), 1767-1772, (2010)
   

Sanagi MM et al., Determination of organophosphorus pesticides using molecularly imprinted polymer solid phase extraction.
The Malaysian Journal of Analytical Sciences, 15, (2), 175-183, (2011)
   

Sanagi MM et al., Molecularly imprinted polymer solid-phase extraction for the analysis of organophosphorus pesticides in fruit samples.
Journal of Food Composition and Analysis, 32, (2), 155-161, (2013)
   

Nair AB

Singh K et al., Novel Approaches in Formulation and Drug Delivery using Contact Lenses.
Journal of Basic and Clinical Pharmacy, 2, (2), 87-101, (2011)
   

Nair ANB

Prachi et al., Nanotechnology in Waste Water Treatment: A Review.
International Journal of ChemTech Research, 5, (5), 2303-2308, (2013)
   

Nair AS

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)
   

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)
   

Naito T

Kubo T et al., Effective determination of a pharmaceutical, sulpiride, in river water by online SPE-LC-MS using a molecularly imprinted polymer as a preconcentration medium.
Journal of Pharmaceutical and Biomedical Analysis, 89, 111-117, (2014)
   

Kubo T et al., Molecularly Imprinted Polymers for Selective Adsorption of Lysozyme and Cytochrome c Using a PEG-Based Hydrogel: Selective Recognition for Different Conformations Due to pH Conditions.
Macromolecules, 48, (12), 4081-4087, (2015)
   

Kubo T et al., Selective adsorption of trypsin using molecularly imprinted polymers prepared with PEG-based hydrogels containing anionic functional monomers.
Molecular Imprinting, 3, (1), 18-25, (2015)
   

Kubo T et al., Molecularly imprinted polymer with a pseudo-template for thermo-responsive adsorption/desorption based on hydrogen bonding.
Microporous And Mesoporous Materials, 218, 112-117, (2015)
   

Kubo T et al., Selective adsorption of carbohydrates and glycoproteins via molecularly imprinted hydrogels: application to visible detection by a boronic acid monomer.
Chemical Communications, 53, (53), 7290-7293, (2017)
   

Kubo T et al., Competitive ELISA-like Label-free Detection of Lysozyme by Using a Fluorescent Monomer-doped Molecularly Imprinted Hydrogel.
Analytical Sciences, 33, (11), 1311-1315, (2017)
   

Kubo T et al., Magnetic Field Stimuli-Sensitive Drug Release Using a Magnetic Thermal Seed Coated with Thermal-Responsive Molecularly Imprinted Polymer.
ACS Biomaterials Science & Engineering, 5, (2), 759-767, (2019)
   

Naito T et al., Detection of Molecular Adsorbate in Aqueous Solution Based on Electroosmosis.
Sensors and Materials, 31, (1), 45-52, (2019)
   

Yagishita M et al., Efficient extraction of estrogen receptor-active compounds from environmental surface water via a receptor-mimic adsorbent, a hydrophilic PEG-based molecularly imprinted polymer.
Chemosphere, 217, 204-212, (2019)
   

Kubo T et al., Fluorescent detection of target proteins via a molecularly imprinted hydrogel.
Analytical Methods, 13, (27), 3086-3091, (2021)
   

Najafabadi AH

Azodi-Deilami S et al., Magnetic molecularly imprinted polymer nanoparticles coupled with high performance liquid chromatography for solid-phase extraction of carvedilol in serum samples.
Journal of Applied Polymer Science, 131, (23), Article No 41209-(2014)
   

Azodi-Deilami S et al., Magnetic molecularly imprinted polymer nanoparticles for the solid-phase extraction of paracetamol from plasma samples, followed its determination by HPLC.
Microchimica Acta, 181, (15-16), 1823-1832, (2014)
   

Azodi-Deilami S et al., Determination of meloxicam in plasma samples using a highly selective and sensitive voltammetric sensor based on carbon paste electrodes modified by molecularly imprinted polymer nanoparticle-multiwall carbon nanotubes.
Analytical Methods, 7, (4), 1280-1292, (2015)
   

Najafabadi SAH

Mirzaei M et al., Preparation and utilization of microporous molecularly imprinted polymer for sustained release of tetracycline.
Journal of Applied Polymer Science, 128, (3), 1557-1562, (2013)
   

Najafi AsliPashaki S

Kisomi AS et al., Application of [mu]-TLC for speciation of inorganic arsenic by laser ablation inductively coupled plasma mass spectrometry.
Microchemical Journal, 159, Article105443-(2020)
   

Najafi B

Lieberzeit PA et al., Proceeding, Acoustic chemosensors for real-life environments, 
431-433, (2008)
   

Lieberzeit PA et al., Real-life application of a QCM-based e-nose: quantitative characterization of different plant-degradation processes.
Analytical and Bioanalytical Chemistry, 391, (8), 2897-2903, (2008)
   

Lieberzeit PA et al., Book chapter, Generating bio-analogous recognition of artificial materials - Sensors and electronic noses for odours, 
In: Mining Smartness from Nature, Vincenzini P, Graziani S (Eds.) Scientific.net: 103-107, (2008)
   

Lieberzeit PA et al., QCM sensor array for monitoring terpene emissions from odoriferous plants.
Monatshefte für Chemie / Chemical Monthly, 140, (8), 947-952, (2009)
   

Iqbal N et al., QCM-Arrays for Sensing Terpenes in Fresh and Dried Herbs via Bio-Mimetic MIP Layers.
Sensors, 10, (7), 6361-6376, (2010)
   

Latif U et al., Quality assessment of automotive fuel and oil-improving environmental sustainability.
Sensors and Actuators B: Chemical, 188, 584-589, (2013)
   

Najafi E

Karimi M et al., Potentiometric Determination of Mercury Ions by Ion Imprinted Polymer Coated Multiwall Carbon Nanotube: High Selective Sensor for Determination of Trace Amounts of Mercury Ions in Biological Samples.
Oriental Journal of Chemistry, 28, (4), 1557-1566, (2012)
   

Aboufazeli F et al., Novel ion imprinted polymer magnetic mesoporous silica nano-particles for selective separation and determination of lead ions in food samples.
Food Chemistry, 141, (4), 3459-3465, (2013)
   

Najafi E et al., A novel magnetic ion imprinted nano-polymer for selective separation and determination of low levels of mercury(II) ions in fish samples.
Food Chemistry, 141, (4), 4040-4045, (2013)
   

Sadeghi O et al., Determination of Pb(II) Ions Using Novel Ion-Imprinted Polymer Magnetic Nanoparticles: Investigation of the Relation Between Pb(II) Ions in Cow's Milk and Their Nutrition.
Food Analytical Methods, 6, (3), 753-760, (2013)
   

Aboufazeli F et al., Novel Cd(II) Ion Imprinted Polymer Coated on Multiwall Carbon Nanotubes as a Highly Selective Sorbent for Cadmium Determination in Food Samples.
Journal of AOAC International, 97, (1), 173-178, (2014)
   

Karimi M et al., Determination of Sulfonamides in Chicken Meat by Magnetic Molecularly Imprinted Polymer Coupled to HPLC-UV.
Food Analytical Methods, 7, (1), 73-80, (2014)
   

Najafi F

Limaee NY et al., Selective 2, 4-dichlorophenoxyacetic acid optosensor employing a polyethersulfone nanofiber-coated fluorescent molecularly imprinted polymer.
Polymer, 177, 73-83, (2019)
   

Najafi M

Aghaei A et al., A novel capacitive biosensor for cholesterol assay that uses an electropolymerized molecularly imprinted polymer.
Electrochimica Acta, 55, (5), 1503-1508, (2010)
   

Najafi M et al., Selective recognition of chloroacetic acids by imprinted polyaniline film.
Journal of Applied Polymer Science, 121, (1), 292-298, (2011)
   

Najafi M et al., Molecularly imprinted polymer-based potentiometric sensor for 2-aminopyridine as a potential impurity in piroxicam.
Drug Testing and Analysis, 3, (2), 132-137, (2011)
   

Najafi M et al., Capacitive Chemical Sensor for Thiopental Assay Based on Electropolymerized Molecularly Imprinted Polymer.
Electroanalysis, 24, (5), 1236-1242, (2012)
   

Najafi M et al., Proceeding, Surface Imprinted Polyurethane Film Contaning Nano-Pore for Detection of Ascorbic Acid, 
956-958, (2012)
   

Bojdi MK et al., Selective and Sensitive Determination of Uranyl Ions in Complex Matrices by Ion Imprinted Polymers-Based Electrochemical Sensor.
Electroanalysis, 27, (10), 2458-2467, (2015)
   

Zahedi P et al., Morphological, thermal and drug release studies of poly (methacrylic acid)-based molecularly imprinted polymer nanoparticles immobilized in electrospun poly ([epsilon]-caprolactone) nanofibers as dexamethasone delivery system.
Korean Journal of Chemical Engineering, 34, (7), 2110-2118, (2017)
   

Dehgan-Reyhan S et al., Preparation of Molecularly Imprinted Polymers-Based Electrochemical Renewable Ceramic Electrode as a Sensitive Uranyl Ions Sensor.
Sensor Letters 16 48-53 (2018)
   

Najafizadeh P

Najafizadeh P et al., Preparation of a Selective L-Phenylalanine Imprinted Polymer Implicated in Patients with Phenylketonuria.
Iranian Journal of Medical Sciences, 39, (6), 552-558, (2014)
   

Najafizadeh P et al., Synthesis of a phenylalanine imprinted polymer for attenuation of phenylalanine absorption via the gut in a murine hyperphenylalaninemia model.
Journal of Materials Chemistry B, 2, (15), 2144-2152, (2014)
   

Bangaleh Z et al., A New Potentiometric Sensor for Determination and Screening Phenylalanine in Blood Serum Based on Molecularly Imprinted Polymer.
Iranian Journal of Pharmaceutical Research, 18, (1), 61-71, (2019)
   

Najari F

Hashemi SH et al., Response Surface Methodology of Pre-Concentration of Chorophenols from Seawater Samples by Molecularly Imprinted Stir Bar Sorptive Extraction Combined with HPLC: Box-Behnken Design.
Journal of Chromatographic Science, 57, (3), 279-289, (2019)
   

Najeeb A

Mujahid A et al., Tailoring Imprinted Titania Nanoparticles for Purines Recognition.
Journal of Materials, 2015, ArticleNo903543-(2015)
   

Naka K

Tabushi I et al., Supramolecular sensor based on SnO2 electrode modified with octadecylsilyl monolayer having molecular-binding sites.
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Nakadoi Y

Tokonami S et al., Label-Free and Selective Bacteria Detection Using a Film with Transferred Bacterial Configuration.
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Tokonami S et al., Recognition of gram-negative and gram-positive bacteria with a functionalized conducting polymer film.
Research on Chemical Intermediates, 40, (6), 2327-2335, (2014)
   

Nakagama T

Lin JM et al., Molecularly imprinted polymer as chiral selector for enantioseparation of amino acids by capillary gel electrophoresis.
Chromatographia, 43, (11-12), 585-591, (1996)
   

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Lin JM et al., Temperature effect on chiral recognition of some amino acids with molecularly imprinted polymer filled capillary electrochromatography.
Biomedical Chromatography, 11, (5), 298-302, (1997)
   

Lin JM et al., Enantioseparation of D, L-phenylalanine by molecularly imprinted polymer particles filled capillary electrochromatography.
Journal of Liquid Chromatography & Related Technologies, 20, (10), 1489-1506, (1997)
   

Lin JM et al., Capillary electrochromatographic separation of amino acid enantiomers using on-column prepared molecularly imprinted polymer.
Journal of Pharmaceutical and Biomedical Analysis, 15, (9-10), 1351-1358, (1997)
   

Nakagawa H

Nakagawa H et al., Spacer effect in the template polycondensation of nucleotide analogs with diamines.
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Nakagiri T

Yano K et al., Stereoselective recognition of dipeptide derivatives in molecularly imprinted polymers which incorporate an L-valine derivative as a novel functional monomer.
Analytica Chimica Acta, 357, (1-2), 91-98, (1997)
   

McNiven SJ et al., Book chapter, Application of molecular imprinting to the recognition and detection of bioactive materials, 
In: Molecular and Ionic Recognition with Imprinted Polymers, Bartsch RA, Maeda M (Eds.) The American Chemical Society: Washington DC, Ch. 6, 90-108, (1998)
   

Nakahori Y

Nogami H et al., Nicotine-Selective Polymeric Adsorbent Obtained by Molecular Imprinting with Excess Use of Itaconic Acid.
Chromatography, 38, (1), 15-21, (2017)
   

Nakai K

Yoshikawa M et al., Molecularly Imprinted Nanofiber Membranes from Carboxylated Polysulfone by Electrospray Deposition.
Macromolecular Rapid Communications, 28, (21), 2100-2105, (2007)
   

Nakai S

Nakai S et al., Regioselective Molecularly Imprinted Reaction Field for [4 + 4] Photocyclodimerization of 2-Anthracenecarboxylic Acid.
Langmuir, 33, (9), 2103-2108, (2017)
   

Nakai Y

Nakai Y et al., Cellulose as a membrane material for optical resolution.
Polymer Journal, 47, 334-339, (2015)
   

Nakajima D

Yagishita M et al., Efficient extraction of estrogen receptor-active compounds from environmental surface water via a receptor-mimic adsorbent, a hydrophilic PEG-based molecularly imprinted polymer.
Chemosphere, 217, 204-212, (2019)
   

Nakajima T

Nakamura M et al., Uniformly sized molecularly imprinted polymer for atropine and its application to the determination of atropine and scopolamine in pharmaceutical preparations containing Scopolia extract.
Journal of Pharmaceutical and Biomedical Analysis, 37, (2), 231-237, (2005)
   

Nakamae K

Miyata T et al., Biomolecule-sensitive hydrogels.
Advanced Drug Delivery Reviews, 54, (1), 79-98, (2002)
   

Nakaminami T

Miyata T et al., Tumor marker-responsive behavior of gels prepared by biomolecular imprinting.
Proceedings of the National Academy of Sciences of the United States of America, 103, (5), 1190-1193, (2006)
   

Nakamoto M

Hoshino Y et al., Wide-range pKa tuning of proton imprinted nanoparticles for reversible protonation of target molecules via thermal stimuli.
Journal of Materials Chemistry B, 5, (46), 9204-9210, (2017)
   

Hoshino Y et al., Reversible pKa Modulation of Carboxylic Acids in Temperature-Responsive Nanoparticles through Imprinted Electrostatic Interactions.
ACS Applied Materials & Interfaces, 10, (37), 31096-31105, (2018)
   

Nakamoto T

Wyszynski B et al., Linking biological and artificial olfaction: biomimetic quartz crystal microbalance odor sensors.
IEEJ Transactions on Electrical and Electronic Engineering, 4, (3), 334-338, (2009)
   

Nakamura A

Kawanami Y et al., Imprinted polymer catalysts for the hydrolysis of p-nitrophenyl acetate.
Journal of Molecular Catalysis A: Chemical, 145, (1-2), 107-110, (1999)
   

Nakamura H

Uezu K et al., Novel metal ion-imprinted resins prepared by surface template polymerization with W/O emulsion.
Journal of Chemical Engineering of Japan, 27, (3), 436-438, (1994)
   

Tomioka Y et al., Phenobarbital molecularly imprinted polymer selectively binds phenobarbital.
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Uezu K et al., Metal ion-imprinted polymer prepared by the combination of surface template polymerization with postirradiation by g-rays.
Macromolecules, 30, (13), 3888-3891, (1997)
   

Uezu K et al., Metal-imprinted microsphere prepared by surface template polymerization with W/O/W emulsions.
Journal of Chemical Engineering of Japan, 32, (3), 262-267, (1999)
   

Nakamura H et al., Current research activity in biosensors.
Analytical and Bioanalytical Chemistry, 377, (3), 446-468, (2003)
   

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Bunseki Kagaku, 56, (5), 279-297, (2007)
   

Nakamura M

Nakamura M et al., Uniformly sized molecularly imprinted polymer for atropine and its application to the determination of atropine and scopolamine in pharmaceutical preparations containing Scopolia extract.
Journal of Pharmaceutical and Biomedical Analysis, 37, (2), 231-237, (2005)
   

Nakamura MG

Santos MG et al., Restricted access molecularly imprinted polymers obtained by bovine serum albumin and/or hydrophilic monomers' external layers: a comparison related to physical and chemical properties.
Analyst, 140, (22), 7768-7775, (2015)
   

Nakamura N

Miyajima T et al., A physiochemical study on the origin of the imprinting effect.
Abstracts of Papers of the American Chemical Society, 213, (IEC), 148-148, (1997)
   

Nakamura S

Miyajima T et al., Book chapter, A physicochemical study on the origin of the imprinting effect, 
In: Molecular and Ionic Recognition with Imprinted Polymers, Bartsch RA, Maeda M (Eds.) The American Chemical Society: Washington DC, Ch. 20, 290-297, (1998)
   

Baba Y et al., Molecularly Imprinted Mesoporous Silicas for the Separation of Metal Ions by Sol-Gel Method.
Journal of Ion Exchange, 14, (Supplement), 161-164, (2003)
   

Nakamura Y

Nakamura Y et al., Preparation of molecularly imprinted polymers for strychnine by precipitation polymerization and multistep swelling and polymerization and their application for the selective extraction of strychnine from nux-vomica extract powder.
Journal of Separation Science, 39, (8), 1542-1550, (2016)
   

Nakamura Y et al., Molecularly imprinted polymer for glutathione by modified precipitation polymerization and its application to determination of glutathione in supplements.
Journal of Pharmaceutical and Biomedical Analysis, 144, 230-235, (2017)
   

Nakamura Y et al., Preparation of molecularly imprinted polymers for warfarin and coumachlor by multi-step swelling and polymerization method and their imprinting effects.
Journal of Chromatography A, 1516, 71-78, (2017)
   

Masumoto S et al., Molecularly imprinted polymers for arbutin and rutin by modified precipitation polymerization and their application for selective extraction of rutin in nutritional supplements.
Journal of Pharmaceutical and Biomedical Analysis, 205, Article114294-(2021)
   

Nakane Y

Kubo I et al., The Establishment of Bisphenol A Sensing System Utilizing Molecularly Imprinted Polymer Receptor and Electrochemical Determination.
International Journal of Electrochemistry, 2011, Article ID 534936-(2011)
   

Kubo I et al., Characteristics of Molecularly Imprinted Polymer Thin Layer for Bisphenol A and Response of the MIP-Modified Sensor.
ISRN Materials Science, 2012, Article ID 861643-(2012)
   

Nakanishi K

Shimada T et al., Footprint catalysis .4. Structural effects of templates on catalytic behavior of imprinted footprint cavities.
Bulletin of the Chemical Society of Japan, 65, (4), 954-958, (1992)
   

Nakanishi K et al., Proceeding, Photo-tunable molecular recognizing smart material for gas sensing, 
1376-1379, (2017)
   

Nakano AMS

Souza ID et al., Selective molecularly imprinted polymer combined with restricted access material for in-tube SPME/UHPLC-MS/MS of parabens in breast milk samples.
Analytica Chimica Acta, 932, 49-59, (2016)
   

Nakano H

Hirose T et al., An Inspection and Measurement Technology Platform Leading the Way to More Advanced Manufacturing.
Hitachi Review, 65, 277-120, (2016)
   

Nakano I

Yoshimi Y et al., Chiral-Discriminative Gate Effect in Self-Supporting Phenylalanine-Imprinted Poly(Methacrylic Acid-co-2-Vinylpyridine-co-Triethyleneglycol Dimethacrylate) Membrane.
Journal of Chemical Engineering of Japan, 42, (8), 600-606, (2009)
   

Nakano K

Imahashi M et al., Proceeding, Odor sensor system using molecular imprinting filter, 
Article number 6411156, (2012)
   

Nakano M

Itou Y et al., Optical resolution of racemic amino acid derivatives with molecularly imprinted membranes from tetrapetide consisting of glycinyl residues.
Journal of Membrane Science, 325, (1), 371-375, (2008)
   

Nakano T

Okamoto Y et al., Asymmetric polymerization.
Chemical Reviews, 94, (2), 349-372, (1994)
   

Nakano T et al., Synthesis and chiral recognition ability of a cross-linked polymer gel prepared by a molecular imprint method using chiral helical polymers as templates.
Macromolecules, 34, (8), 2405-2407, (2001)
   

Satonaka T et al., Proceeding, Synthesis of polymer gel by molecular imprinting using helical polymethacrylate as template and its chiral recognition ability, 
1708, (2002)
   

Satonaka T et al., Proceeding, Synthesis of polymer gel by molecular imprinting method using helical polymethacrylate as template, 
1508, (2002)
   

Habaue S et al., Synthesis of polymer gel with chiral helical cavity by molecular imprinting using bifunctional vinyl monomers.
Polymer, 45, (15), 5095-5100, (2004)
   

Yagishita M et al., Efficient extraction of estrogen receptor-active compounds from environmental surface water via a receptor-mimic adsorbent, a hydrophilic PEG-based molecularly imprinted polymer.
Chemosphere, 217, 204-212, (2019)
   

Nakano Y

Nakano Y, Science and technology of polymer gels.
Journal of Chemical Engineering of Japan, 38, (8), 605-614, (2005)
   

Nakao A

He J et al., Memorization of coordination environments in ultrathin titania films.
RIKEN Reviews, 45, 37-41, (2002)
   

Nakao K

Mine Y et al., Enhanced enzyme activity and enantioselectivity of lipases in organic solvents by crown ethers and cyclodextrins.
Journal of Bioscience and Bioengineering, 95, (5), 441-447, (2003)
   

Mine Y et al., Structural effects of amphiphiles on Candida rugosa lipase activation by freeze-drying of aqueous solution of enzyme and amphiphile.
Journal of Bioscience and Bioengineering, 96, (6), 525-528, (2003)
   

Nakashima A

Nakashima A et al., Metal ion-template syntheses of hybrid resins and the template effect on their selectivities for metal ions.
Memoirs of the Faculty of Science, Kyushu University, Series C., 16, (1), 33-42, (1987)
   

Nakashima K

Nakashima K et al., Saccharide libraries as potential templates for regio- and chiroselective introduction of two functional groups into [60]fullerene.
Journal of Organic Chemistry, 64, (3), 984-990, (1999)
   

Nakashima Y

Ohkubo K et al., Preparation and catalytic property of L-histidyl group-introduced, cross-linked poly(ethylene imine)s imprinted by a transition-state analog of an esterolysis reaction.
Polymer, 35, (24), 5372-5374, (1994)
   

Ishii T et al., Regioselective introduction of two boronic acid groups into [60]fullerene using saccharides as imprinting templates.
Chemical Communications, 1047-1048, (1998)
   

Nakashio F

Uezu K et al., Novel metal ion-imprinted resins prepared by surface template polymerization with W/O emulsion.
Journal of Chemical Engineering of Japan, 27, (3), 436-438, (1994)
   

Yoshida M et al., Metal ion-imprinted resins with novel bifunctional monomer by surface template polymerization.
Journal of Chemical Engineering of Japan, 29, (1), 174-176, (1996)
   

Hara T et al., Separation of rare earth metals by imprinted polymers utilizing surface template polymerization.
Abstracts of Papers of the American Chemical Society, 213, (IEC), 30-30, (1997)
   

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Uezu K et al., Metal ion-imprinted polymer prepared by the combination of surface template polymerization with postirradiation by g-rays.
Macromolecules, 30, (13), 3888-3891, (1997)
   

Yoshida M et al., A novel bifunctional organophosphorus monomer for metal ion-imprinted polymers by surface template polymerization.
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Journal of Chemical Engineering of Japan, 32, (3), 262-267, (1999)
   

Kamata I et al., Li (I) Selective Resins Prepared by Means of Molecular Imprinting Technique Utilizing Synergistic Effect.
Bulletin of the Society of Sea Water Science, Japan, 56, (3), 228-233, (2002)
   

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Journal of Ion Exchange, 14, (Supplement), 2-7, (2003)
   

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Journal of Ion Exchange, 14, (Supplement), 333-336, (2003)
   

Nakata H

Kawaguchi M et al., Molecularly imprinted solid phase extraction using stable isotope labeled compounds as template and liquid chromatography-mass spectrometry for trace analysis of bisphenol A in water sample.
Analytica Chimica Acta, 539, (1-2), 83-89, (2005)
   

Tokonami S et al., Recognition of gram-negative and gram-positive bacteria with a functionalized conducting polymer film.
Research on Chemical Intermediates, 40, (6), 2327-2335, (2014)
   

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Watanabe M et al., Molecular specific swelling change of hydrogels in accordance with the concentration of guest molecules.
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Nakayama K

Yoshimi Y et al., Development of an enzyme-free glucose sensor using the gate effect of a molecularly imprinted polymer.
Journal of Artificial Organs, 12, (4), 264-270, (2009)
   

Nakayama S

Arai R et al., Proceeding, A speculation of mechanism of gate effect of molecularly imprinted polymer based on solution content and adsorption, 
(2009)
   

Yoshimi Y et al., Influence of the solvent on nature of gate effect in molecularly imprinted membrane.
Analytica Chimica Acta, 682, (1-2), 110-116, (2010)
   

Nakayama SF

Yagishita M et al., Efficient extraction of estrogen receptor-active compounds from environmental surface water via a receptor-mimic adsorbent, a hydrophilic PEG-based molecularly imprinted polymer.
Chemosphere, 217, 204-212, (2019)
   

Nakayama T

Nakayama T et al., Proceeding, Star shaped molecularly imprinted polymer working as a drug carrier, 
(2006)
   

Yoshimi Y et al., Star shaped molecularly imprinted polymer.
Polymer Preprints, Japan, 55, (2), 5404-5405, (2006)
   

Nakazato K

Hjertén S et al., Gels mimicking antibodies in their selective recognition of proteins.
Chromatographia, 44, (5-6), 227-234, (1997)
   

Nakazawa H

Kawaguchi M et al., Molecularly imprinted solid phase extraction using stable isotope labeled compounds as template and liquid chromatography-mass spectrometry for trace analysis of bisphenol A in water sample.
Analytica Chimica Acta, 539, (1-2), 83-89, (2005)
   

Sakamoto Y et al., Determination of Chloramphenicol in Honey and Royal Jelly by Sample Clean-up with Molecular Imprinted Polymer.
Bunseki Kagaku, 61, (5), 383-389, (2012)
   

Naklua W

Naklua W et al., An imprinted dopamine receptor for discovery of highly potent and selective D3 analogues with neuroprotective effects.
Process Biochemistry, 50, (10), 1537-1556, (2015)
   

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)
   

Naklua W et al., Molecularly imprinted polymer microprobes for manipulating neurological function by regulating temperature-dependent molecular interactions.
Process Biochemistry, 51, (1), 142-157, (2016)
   

Naklua W et al., Dopaminergic receptor-ligand binding assays based on molecularly imprinted polymers on quartz crystal microbalance sensors.
Biosensors and Bioelectronics, 81, 117-124, (2016)
   

Chunta S et al., Direct assessment of very-low-density lipoprotein by mass sensitive sensor with molecularly imprinted polymers.
Talanta, 221, Article121549-(2021)
   

Nakpheng T

Suksuwan A et al., The composite nanomaterials containing (R)-thalidomide-molecularly imprinted polymers as a recognition system for enantioselective-controlled release and targeted drug delivery.
Journal of Applied Polymer Science, 132, (18), Article No 41930-(2015)
   

Nal F

Ktari N et al., Design of a polypyrrole MIP-SAW sensor for selective detection of flumequine in aqueous media. Correlation between experimental results and DFT calculations.
RSC Advances, 5, (108), 88666-88674, (2015)
   

Nallal M

Anantha-Iyengar G et al., Functionalized conjugated polymers for sensing and molecular imprinting applications.
Progress in Polymer Science, 88, 1-129, (2019)
   

Nam GH

Nam GH et al., Separation characteristics of molecular imprinted poly(methacrylic acid) for retinoid derivatives.
Journal of Applied Polymer Science, 90, (4), 1081-1087, (2003)
   

Nam KH

Nam KH et al., Preparation of molecularly imprinted poly(methacrylic acid) and its HPLC separation characteristics of retinoids.
Polymer-Korea, 26, (6), 710-717, (2002)
   

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Li N et al., Electrochemical sensor based on dual-template molecularly imprinted polymer and nanoporous gold leaf modified electrode for simultaneous determination of dopamine and uric acid.
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Nishad PA et al., Cobalt (II) imprinted chitosan for selective removal of cobalt during nuclear reactor decontamination.
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Yoshimi Y et al., Development of an enzyme-free glucose sensor using the gate effect of a molecularly imprinted polymer.
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Hoshino F et al., Antibody microarray using molecular-shape imprinting on a polymer containing azo dye.
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Shofiyani A et al., Book chapter, Enhancement of Cu(II) Adsorption Capacity by Surface-Ionic Imprinted Biosorbent, 
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Desalination, 251, (1-3), 83-89, (2010)
   

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Desalination and Water Treatment, 55, (5), 1240-1252, (2015)
   

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Indonesian Journal of Chemistry, 15, (2), 163-171, (2015)
   

Naruie N

Hashemi SH et al., Separation and determination of ciprofloxacin in seawater, human blood plasma and tablet samples using molecularly imprinted polymer pipette-tip solid phase extraction and its optimization by response surface methodology.
Journal of Separation Science, 43, (2), 505-513, (2020)
   

Narula P

Kaur P et al., Metal Assisted Approach to Develop Molecularly Imprinted Mesoporous Material Exhibiting Pockets for the Fast Uptake of Diethyl Phthalate as Copper Complex.
Analytical Sciences, 30, (5), 601-607, (2014)
   

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Journal of Separation Science, 38, (19), 3442-3449, (2015)
   

Nasab AH

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)
   

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Fat’hi MR et al., Synthesis of calcon-imprinted magnetic chitosan nanoparticles as a novel adsorbent and its application in selective removal of calcon dye from aqueous solutions.
International Journal of Biological Macromolecules, 114, 1151-1160, (2018)
   

Nascentes CC

Tarley CRT et al., On-line micro-solid phase preconcentration of Cd2+ coupled to TS-FF-AAS using a novel ion-selective bifunctional hybrid imprinted adsorbent.
Microchemical Journal, 131, 57-69, (2017)
   

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Journal of Environmental Chemical Engineering, 7, (1), Article102849-(2019)
   

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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)
   

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Journal of Molecular Structure, 1177, 101-106, (2019)
   

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Journal of Molecular Modeling, 25, (4), Article104-(2019)
   

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Analyst, 145, (12), 4245-4253, (2020)
   

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Microchemical Journal, 158, Article105252-(2020)
   

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Quimica Nova, 43, (10), 1439-1446, (2021)
   

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Fonseca MC et al., Theoretical investigation on functional monomer and solvent selection for molecular imprinting of tramadol.
Chemical Physics Letters, 645, 174-179, (2016)
   

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Nascimento TA et al., Magnetic molecularly imprinted conducting polymer for determination of praziquantel enantiomers in milk.
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Sabu C et al., Bioinspired oral insulin delivery system using yeast microcapsules.
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Naseri K

Motaharian A et al., Determination of psychotropic drug chlorpromazine using screen printed carbon electrodes modified with novel MIP-MWCNTs nano-composite prepared by suspension polymerization method.
Sensors and Actuators B: Chemical, 288, 356-362, (2019)
   

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Naseri M et al., The Use of Aptamers and Molecularly Imprinted Polymers in Biosensors for Environmental Monitoring: A Tale of Two Receptors.
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Nasir AM et al., Heparin imprinted polymer prepared by sol-gel process on silica microparticles surface: Analysis of template removal and binding performance.
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Polymer Science, Series A, 59, (5), 649-659, (2017)
   

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Ara B et al., Synthesis of Ion Imprinted Polymers by Copolymerization of Zn(II) and Al(III)8-hydroxy Quinolone Complexes with Divinylbenzene and Methacryclic Acid.
Polymer-Plastics Technology and Engineering, 55, (14), 1460-1473, (2016)
   

Nasir S

Bow Y et al., Molecularly Imprinted Polymers (MIP) Based Electrochemical Sensor for Detection of Endosulfan Pesticide.
International Journal on Advanced Science, Engineering and Information Technology, 7, (2), 662-668, (2017)
   

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Nasiri-Majd M et al., Synthesis and application of nano-sized ionic imprinted polymer for the selective voltammetric determination of thallium.
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Khodadoust S et al., Preparation of a magnetic molecularly imprinted polymer for the selective adsorption of chlordiazepoxide and its determination by central composite design optimized HPLC.
New Journal of Chemistry, 42, (17), 14444-14452, (2018)
   

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Shojaei S et al., An Electrochemical Nanosensor Based on Molecularly Imprinted Polymer (MIP) for Detection of Gallic Acid in Fruit Juices.
Food Analytical Methods, 9, (10), 2721-2731, (2016)
   

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Journal of Electroanalytical Chemistry, 802, 139-146, (2017)
   

Jafari S et al., An azithromycin electrochemical sensor based on an aniline MIP film electropolymerized on a gold nano urchins/graphene oxide modified glassy carbon electrode.
Journal of Electroanalytical Chemistry, 829, 27-34, (2018)
   

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Materials Science and Engineering: C, 96, 654-660, (2019)
   

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International Journal of Dairy Technology, 72, (4), 505-514, (2019)
   

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Measurement, 145, 22-29, (2019)
   

Rohani Moghadam M et al., Voltammetric sensing of oxacillin by using a screen-printed electrode modified with molecularly imprinted polyaniline, gold nanourchins and graphene oxide.
Microchimica Acta, 186, (12), Article798-(2019)
   

Naskar H

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)
   

Naskar H et al., Electrochemical Detection of Eugenol (EU) Using Polyacrylonitrile Molecular Imprinted Polymer Embedded Graphite (PAN-MIP/G) Electrode.
IEEE Sensors Journal, 20, (1), 39-46, (2020)
   

Nasr J

Petrikovics I et al., Plasma persistence of 2-aminothiazoline-4-carboxylic acid in rat system determined by liquid chromatography tandem mass spectrometry.
Journal of Chromatography B, 891-892, (1), 81-84, (2012)
   

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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)
   

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Ensafi AA et al., Simultaneous detection of folic acid and methotrexate by an optical sensor based on molecularly imprinted polymers on dual-color CdTe quantum dots.
Analytica Chimica Acta, 996, 64-73, (2017)
   

Ensafi AA et al., Metronidazole determination with an extremely sensitive and selective electrochemical sensor based on graphene nanoplatelets and molecularly imprinted polymers on graphene quantum dots.
Sensors and Actuators B: Chemical, 270, 192-199, (2018)
   

Ensafi AA et al., Synthesis of molecularly imprinted polymer on carbon quantum dots as an optical sensor for selective fluorescent determination of promethazine hydrochloride.
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Al-Degs YS et al., Conventional and Upcoming Sulfur-Cleaning Technologies for Petroleum Fuel: A Review.
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Sensors and Actuators B: Chemical, 177, 871-878, (2013)
   

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Sensors and Actuators B: Chemical, 185, 17-23, (2013)
   

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Talanta, 144, 456-465, (2015)
   

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Talanta, 146, 525-532, (2016)
   

Nezhadali A et al., Selective extraction of progesterone hormones from environmental and biological samples using a polypyrrole molecularly imprinted polymer and determination by gas chromatography.
Analytical Methods, 8, (8), 1813-1827, (2016)
   

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Chromatographia, 80, (3), 437-446, (2017)
   

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Journal of Electroanalytical Chemistry, 795, 32-40, (2017)
   

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Materials Science and Engineering: C, 71, 1106-1114, (2017)
   

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Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 190, 181-187, (2018)
   

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)
   

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Materials Science and Engineering: C, 85, 225-232, (2018)
   

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Colloids and Surfaces B: Biointerfaces, 172, 594-600, (2018)
   

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Microchimica Acta, 185, (12), Article551-(2018)
   

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Journal of Food and Drug Analysis, 27, (1), 305-314, (2019)
   

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Journal of Separation Science, 42, (22), 3479-3486, (2019)
   

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Journal of Separation Science, 43, (6), 1164-1172, (2020)
   

Nezhadali A et al., Computer-aided study and multivariate optimization of nanomolar metformin hydrochloride analysis using molecularly imprinted polymer electrochemical sensor based on silver nanoparticles.
Journal of Materials Science: Materials in Electronics, 32, (23), 27171-27183, (2021)
   

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Nezhadali A et al., Electrochemical preparation of a molecularly imprinted polypyrrole modified pencil graphite electrode for the determination of phenothiazine in model and real biological samples.
Talanta, 144, 456-465, (2015)
   

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Li J et al., Bioinspired Pt-free molecularly imprinted hydrogel-based magnetic Janus micromotors for temperature-responsive recognition and adsorption of erythromycin in water.
Chemical Engineering Journal, 369, 611-620, (2019)
   

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Ng HKM et al., Selective removal of dyes by molecular imprinted TiO2 nanoparticles in polysulfone ultrafiltration membrane.
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Ng SM et al., Fluorescence sensor using a molecularly imprinted polymer as a recognition receptor for the detection of aluminium ions in aqueous media.
Analytical and Bioanalytical Chemistry, 386, (5), 1235-1244, (2006)
   

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Sensors and Actuators B: Chemical, 139, (1), 156-165, (2009)
   

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Sensors and Actuators B: Chemical, 139, (1), 22-29, (2009)
   

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Li N et al., Separation and purification of the antioxidant compounds, caffeic acid phenethyl ester and caffeic acid from mushrooms by molecularly imprinted polymer.
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Dayal H et al., Development of a hydrophilic molecularly imprinted polymer for the detection of hydrophilic targets using quartz crystal microbalance.
Sensors and Actuators B: Chemical, 300, Article127044-(2019)
   

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Li C et al., A fluorescence-displacement assay using molecularly imprinted polymers for the visual, rapid, and sensitive detection of the algal metabolites, geosmin and 2-methylisoborneol.
Analytica Chimica Acta, 1066, 121-130, (2019)
   

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Nontawong N et al., Smart sensor for assessment of oxidative/nitrative stress biomarkers using a dual-imprinted electrochemical paper-based analytical device.
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Mamba BB et al., Book chapter, Advances in Nanostructured Polymers and Membranes for Removal of Heavy Metals in Water, 
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Ahmed MB et al., Chloramphenicol interaction with functionalized biochar in water: sorptive mechanism, molecular imprinting effect and repeatable application.
Science of The Total Environment, 609, 885-895, (2017)
   

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Liu ZH et al., Cation-Selective Microcontact Printing Based on Surface-Molecular-Imprinted Layer-by-Layer Films.
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Ngundi MM et al., Nonantibody-based recognition: Alternative molecules for detection of pathogens.
Expert Review of Proteomics, 3, (5), 511-524, (2006)
   

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Nguy TP et al., Development of an impedimetric sensor for the label-free detection of the amino acid sarcosine with molecularly imprinted polymer receptors.
Sensors and Actuators B: Chemical, 246, 461-470, (2017)
   

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Biosensors and Bioelectronics, 180, Article113089-(2021)
   

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Analytical Chemistry, 89, (8), 4680-4684, (2017)
   

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370-374, (2019)
   

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Microchimica Acta, 182, (1-2), 69-76, (2015)
   

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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.
Journal of Molecular Liquids, 198, 307-312, (2014)
   

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Nguyen HT et al., Co-precipitation polymerization of dual functional monomers and polystyrene-co-divinylbenzene for ciprofloxacin imprinted polymer preparation.
RSC Advances, 11, (54), 34281-34290, (2021)
   

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Nguyen HT et al., Co-precipitation polymerization of dual functional monomers and polystyrene-co-divinylbenzene for ciprofloxacin imprinted polymer preparation.
RSC Advances, 11, (54), 34281-34290, (2021)
   

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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.
Journal of Molecular Liquids, 198, 307-312, (2014)
   

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Devkota L et al., Electrochemical determination of tetracycline using AuNP-coated molecularly imprinted overoxidized polypyrrole sensing interface.
Electrochimica Acta, 270, 535-542, (2018)
   

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RSC Advances, 11, (19), 11403-11414, (2021)
   

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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)
   

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Nguyen TH et al., Fluorescent imprinted polymer sensors for chiral amines.
Organic & Biomolecular Chemistry, 7, (6), 1211-1220, (2009)
   

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Santos JL, Culshaw B, Lopez-Higuera JM, MacPherson WN (Eds.), Art. No. 76531V, (2010)
   

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Journal of Molecular Recognition, 25, (1), 1-10, (2011)
   

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IEEE Sensors Journal, 12, (1), 255-260, (2012)
   

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Jaroszewicz LR (Ed.), Art No 879417, (2013)
   

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Sensors and Actuators B: Chemical, 193, 35-41, (2014)
   

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ArticleNo991612, (2016)
   

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Phan NHV et al., Synthesis quercetin imprinted polymer by precipitation polymerization method, directed to apply as sorbent for selective solid-phase extraction.
Pharmaceutical Sciences Asia, 4, (2), 108-119, (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.
Journal of Molecular Liquids, 198, 307-312, (2014)
   

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Graham LM et al., Nanodetoxification: emerging role of nanomaterials in drug intoxication treatment.
Nanomedicine, 6, (5), 921-928, (2011)
   

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Nguyen HT et al., Co-precipitation polymerization of dual functional monomers and polystyrene-co-divinylbenzene for ciprofloxacin imprinted polymer preparation.
RSC Advances, 11, (54), 34281-34290, (2021)
   

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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.
Journal of Molecular Liquids, 198, 307-312, (2014)
   

Nguyen VQ

Kumar DR et al., Molecularly imprinted hornlike polymer@electrochemically reduced graphene oxide electrode for the highly selective determination of an antiemetic drug.
Analytica Chimica Acta, 1141, 71-82, (2021)
   

Ni CQ

Ni CQ et al., Selective removal and recovery of La(III) using a phosphonic-based ion imprinted polymer: Adsorption performance, regeneration, and mechanism.
Journal of Environmental Chemical Engineering, 9, (6), Article106701-(2021)
   

Ni FY

Song YL et al., Application of molecularly imprinted technology for separation of PGG from Guizhi Fuling capsule.
China Journal of Chinese Materia Medica, 40, (6), 1012-1016, (2015)
   

Ni G

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)
   

Ni JC

Chen JH et al., Cr(III) ionic imprinted polyvinyl alcohol/sodium alginate (PVA/SA) porous composite membranes for selective adsorption of Cr(III) ions.
Chemical Engineering Journal, 165, (2), 465-473, (2010)
   

Ni JH

Kong Y et al., Identification of Aspartic Acid Enantiomers Based on Molecularly Imprinted Polyaniline.
Chinese Journal of Chemistry, 29, (12), 2659-2663, (2011)
   

Kong Y et al., Enantioselective recognition of amino acids based on molecularly imprinted polyaniline electrode column.
Electrochimica Acta, 56, (11), 4070-4074, (2011)
   

Kong Y et al., Enantioselective recognition of glutamic acid enantiomers based on poly(aniline-co-m-aminophenol) electrode column.
Electrochemistry Communications, 14, (1), 17-20, (2012)
   

Ni JZ

Lv N et al., Pyrophosphate-Imprinted Magnetic Mesoporous Silica Microspheres for Recognition, Enrichment and MS Detection of Phosphopeptides.
ChemistrySelect, 2, (18), 5089-5094, (2017)
   

Ni L

Xing WN et al., Synthesis of thermal-responsive photocatalysts by surface molecular imprinting for selective degradation of tetracycline.
RSC Advances, 3, (48), 26334-26342, (2013)
   

Liu Y et al., Synthesis, characterization, and adsorption properties of a Ce(III)-imprinted polymer supported by mesoporous SBA-15 matrix by a surface molecular imprinting technique.
Canadian Journal of Chemistry - Revue Canadienne de Chimie, 92, (3), 257-266, (2014)
   

Meng MJ et al., An ion-imprinted functionalized SBA-15 adsorbent synthesized by surface imprinting technique via reversible addition-fragmentation chain transfer polymerization for selective removal of Ce(III) from aqueous solution.
Journal of Hazardous Materials, 278, 134-143, (2014)
   

Liu FF et al., Efficient static and dynamic removal of Sr(II) from aqueous solution using chitosan ion-imprinted polymer functionalized with dithiocarbamate.
Journal of Environmental Chemical Engineering, 3, (2), 1061-1071, (2015)
   

Liu Y et al., Preparation of a Two-Dimensional Ion-Imprinted Polymer Based on a Graphene Oxide/SiO2 Composite for the Selective Adsorption of Nickel Ions.
Langmuir, 31, (32), 8841-8851, (2015)
   

Liu Y et al., Thermal-responsive ion-imprinted polymer based on magnetic mesoporous silica SBA-15 for selective removal of Sr(II) from aqueous solution.
Colloid & Polymer Science, 293, (1), 109-123, (2015)
   

Liu Y et al., Preparation of core-shell ion imprinted nanoparticles via photoinitiated polymerization at ambient temperature for dynamic removal of cobalt in aqueous solution.
RSC Advances, 5, (104), 85691-85704, (2015)
   

Liu Y et al., Synthesis of hydrophilic surface ion-imprinted polymer based on graphene oxide for removal of strontium from aqueous solution.
Journal of Materials Chemistry A, 3, (3), 1287-1297, (2015)
   

Liu ZC et al., Monodisperse magnetic ion imprinted polymeric microparticles prepared by RAFT polymerization based on [gamma]-Fe2O3@meso-SiO2 nanospheres for selective solid-phase extraction of Cu(II) in water samples.
RSC Advances, 5, (65), 52369-52381, (2015)
   

Meng XG et al., Synthesis of novel ion-imprinted polymers by two different RAFT polymerization strategies for the removal of Cs(I) from aqueous solutions.
RSC Advances, 5, (17), 12517-12529, (2015)
   

Liu Y et al., Synthesis of a Ni(II) ion imprinted polymer based on macroporous-mesoporous silica with enhanced dynamic adsorption capacity: optimization by response surface methodology.
New Journal of Chemistry, 40, (4), 3821-3832, (2016)
   

Liu Y et al., Tailor-made ion-imprinted polymer based on functionalized graphene oxide for the preconcentration and determination of trace copper in food samples.
Journal of Separation Science, 39, (7), 1371-1378, (2016)
   

Liu Y et al., RAFT-mediated microemulsion polymerization to synthesize a novel high-performance graphene oxide-based cadmium imprinted polymer.
Chemical Engineering Journal, 302, 609-618, (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)
   

Liu Y et al., Facile synthesis of novel photoresponsive mesoporous molecularly imprinted polymers for photo-regulated selective separation of bisphenol A.
Chemical Engineering Journal, 296, 437-446, (2016)
   

Liu Y et al., A modeling study by response surface methodology (RSM) on Sr(II) ion dynamic adsorption optimization using a novel magnetic ion imprinted polymer.
RSC Advances, 6, (60), 54679-54692, (2016)
   

Liu Y et al., A molecularly imprinted polymer placed on the surface of graphene oxide and doped with Mn(II)-doped ZnS quantum dots for selective fluorometric determination of acrylamide.
Microchimica Acta, 185, (1), ArticleNo48-(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)
   

Zhou TY et al., Preparation of magnetic superhydrophilic molecularly imprinted resins for detection of triazines in aqueous samples.
Journal of Chromatography A, 1497, 38-46, (2017)
   

Li C et al., RETRACTED: Simple and sensitive molecularly imprinted polymer-MPA capped Mn-doped ZnS quantum dots-based phosphorescence probe for cyanotoxins determination in algae metabolites.
Chemical Physics Letters, 735, Article136750-(2019)
   

Li C et al., Retraction notice to "Simple and sensitive molecularly imprinted polymer-MPA capped Mn-doped ZnS quantum dots-based phosphorescence probe for cyanotoxins determination in algae metabolites" [Chem. Phys. Lett. 73(2019) 136750].
Chemical Physics Letters, 752, Article137477-(2020)
   

Ni P

Li Y et al., Identification of 3-chloro-1, 2-propandiol using molecularly imprinted composite solid-phase extraction materials.
Analytical and Bioanalytical Chemistry, 406, (25), 6319-6327, (2014)
   

Ni R

Xu W et al., Creating magnetic ionic liquid-molecularly imprinted polymers for selective extraction of lysozyme.
RSC Advances, 8, (39), 21850-21856, (2018)
   

Wei XX et al., Ionic liquids skeleton typed magnetic core-shell molecularly imprinted polymers for the specific recognition of lysozyme.
Analytica Chimica Acta, 1081, 81-92, (2019)
   

Xu W et al., Fabrication of magnetic polymers based on deep eutectic solvent for separation of bovine hemoglobin via molecular imprinting technology.
Analytica Chimica Acta, 1048, 1-11, (2019)
   

Ni TH

Liu HL et al., Molecularly Imprinted Solid-Phase Extraction Coupled with High Performance Liquid Chromatography for the Detection of Dicyandiamide in Milk Powder.
Food Science, 38, (20), 203-208, (2017)
   

Liu HL et al., Sensitive detection of pyrraline with a molecularly imprinted sensor based on metal-organic frameworks and quantum dots.
Sensors and Actuators B: Chemical, 256, 1038-1044, (2018)
   

Ni TH et al., Grafting of quantum dots on covalent organic frameworks via a reverse microemulsion for highly selective and sensitive protein optosensing.
Sensors and Actuators B: Chemical, 269, 340-345, (2018)
   

Yuan XY et al., Molecularly Imprinted Dual-Responsive Extraction for Avenanthramides Using Covalent Organic Frameworks Doped with Polyethyleneimine-Modified Mn-ZnS Quantum Dots.
Food Analytical Methods, 14, (7), 1336-1344, (2021)
   

Ni W

Zhang QY et al., Absorption of TNT by Molecularly Imprinted Polymer.
Chinese Journal of Explosives & Propellants, 30, (1), 64-66, (2007)
   

Gao WQ et al., Electrochemical Sensor for Detection of Trichlorfon Based on Molecularly Imprinted Sol-Gel Films Modified Glassy Carbon Electrode.
Journal of Inorganic and Organometallic Polymers and Materials, 22, (1), 37-41, (2012)
   

Ni XF

Lay S et al., State-of-the-art applications of cyclodextrins as functional monomers in molecular imprinting techniques: a review.
Journal of Separation Science, 39, (12), 2321-2331, (2016)
   

Ni XJ

Sun BH et al., Electrochemical sensor based on magnetic molecularly imprinted nanoparticles modified magnetic electrode for determination of Hb.
Biosensors and Bioelectronics, 91, 354-358, (2017)
   

You AM et al., Colloidal Magnetically Assembled Molecularly Imprinted Photonic Crystals and L-Phenylalanine Sensing.
Chemical Journal of Chinese Universities, 38, (2), 182-186, (2017)
   

You AM et al., Colorimetric Chemosensor for Chloramphenicol Based on Colloidal Magnetically Assembled Molecularly Imprinted Photonic Crystals.
Journal of the Chinese Chemical Society, 64, (10), 1235-1241, (2017)
   

Zhu LL et al., Facile and versatile strategy to prepare magnetic molecularly imprinted particles based on the coassembly of magnetic nanoparticles and amphiphilic random copolymers.
Journal of Separation Science, 41, (2), 578-581, (2018)
   

Yuan Y et al., A biosensor based on hemoglobin immobilized with magnetic molecularly imprinted nanoparticles and modified on a magnetic electrode for direct electrochemical determination of 3-chloro-1, 2-propandiol.
Journal of Electroanalytical Chemistry, 834, 233-240, (2019)
   

Ni XN

Wang YC et al., A core-shell CdTe quantum dots molecularly imprinted polymer for recognizing and detecting p-nitrophenol based on computer simulation.
RSC Advances, 5, (90), 73424-73433, (2015)
   

Xu WZ et al., Synthesis and Characterization of a Magnetic Molecularly Imprinted Polymer by Suspension Polymerization for Selective Recognition of Dibenzothiophene from Gasoline Samples.
Adsorption Science & Technology, 33, (9), 819-830, (2015)
   

Yang WM et al., Synthesis of a Denitrification Adsorbent with Large Surface Area and Specific Pore Structure for the Removal of Indole from Fuel Oil.
Adsorption Science & Technology, 33, (5), 441-456, (2015)
   

Fan T et al., Molecularly imprinted polymer microspheres derived from pickering emulsions polymerization in determination of di(2-ethylhexyl) phthalate in bottled water samples.
Journal of Applied Polymer Science, 133, (22), ArticleNo43484-(2016)
   

Huang WH et al., Preparation and characterization of novel thermosensitive magnetic molecularly imprinted polymers for selective recognition of norfloxacin.
Journal of Polymer Research, 23, (5), ArticleNo94-(2016)
   

Kong Y et al., Molecular dynamics simulations of molecularly imprinted polymer approaches to the preparation of selective materials to remove norfloxacin.
Journal of Applied Polymer Science, 133, (1), ArticleNo42817-(2016)
   

Yang WM et al., Computer-aided design and synthesis of magnetic molecularly imprinted polymers with high selectivity for the removal of phenol from water.
Journal of Separation Science, 39, (3), 503-517, (2016)
   

Yang WM et al., Core-Shell Magnetic Molecularly Imprinted Polymer Prepared for Selectively Removed Indole from Fuel Oil.
Advances in Polymer Technology, 36, (2), 168-176, (2017)
   

Zhang XM et al., Synthesis and Evaluation of Ionic Liquid-Mediated Molecularly Imprinted Polymer for Highly Selective Recognition of Dibutyl Phthalate from Liquor Samples.
Advances in Polymer Technology, 36, (2), 220-229, (2017)
   

Chen XQ et al., Ratiometric fluorescence nanosensors based on core-shell structured carbon/CdTe quantum dots and surface molecularly imprinted polymers for the detection of sulfadiazine.
Journal of Separation Science, 41, (23), 4394-4401, (2018)
   

Yang WM et al., A stimuli response, core-shell structured and surface molecularly imprinted polymers with specific pH for rapid and selective detection of sulfamethoxazole from milk sample.
Reactive and Functional Polymers, 151, Article104578-(2020)
   

Huang WH et al., Photoresponsive molecularly imprinted polymers based on 4-[(4-methacryloyloxy)phenylazo] benzenesulfonic acid for the determination of sulfamethazine.
Journal of Separation Science, 44, (13), 2536-2544, (2021)
   

Huang WH et al., Selective enrichment-release of trace dibutyl phthalate via molecular-imprinting based photo-controlled switching followed by high-performance liquid chromatography analysis.
Journal of Separation Science, 44, (2), 513-520, (2021)
   

Xu WZ et al., Highly sensitive electrochemical BPA sensor based on titanium nitride-reduced graphene oxide composite and core-shell molecular imprinting particles.
Analytical and Bioanalytical Chemistry, 413, (4), 1081-1090, (2021)
   

Yang WM et al., Synthesis and characterization of an innovative molecular imprinted polymers based on CdTe QDs fluorescence sensing for selective detection of sulfadimidine.
Journal of Polymer Research, 28, (9), Article356-(2021)
   

Ni XT

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)
   

Ni XY

Cui YX et al., Development of silica molecularly imprinted polymer on carbon dots as a fluorescence probe for selective and sensitive determination of cetirizine in saliva and urine.
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 264, Article120293-(2022)
   

Ni Y

Ni Y et al., Proceeding, Study of explosives detected system based on molecularly imprinted piezoelectric sensor, 
828-831, (2011)
   

Ni Y et al., Proceeding, Study of explosives detected system based on molecularly imprinted piezoelectric sensor, 
1170-1173, (2011)
   

Zhao C et al., Preparation and Fluorescence Microscopic Characterization of Surface Molecularly Imprinted Polymer of Rhodamine B.
Food Science, 35, (20), 236-241, (2014)
   

Ni YL

Zhang J et al., Selective solid-phase extraction of artificial chemicals from milk samples using multiple-template surface molecularly imprinted polymers.
Biomedical Chromatography, 29, (8), 1267-1273, (2015)
   

Wei JR et al., Detection of glycoprotein through fluorescent boronic acid-based molecularly imprinted polymer.
Analytica Chimica Acta, 960, 110-116, (2017)
   

Ni YN

Lin XY et al., A novel electrochemical sensor for the analysis of [beta]-agonists: The poly(acid chrome blue K)/graphene oxide-nafion/glassy carbon electrode.
Journal of Hazardous Materials, 260, 508-517, (2013)
   

Nian YM

Syu MJ et al., Towards bilirubin imprinted poly(methacrylic acid-co-ethylene glycol dimethylacrylate) for the specific binding of a-bilirubin.
Analytica Chimica Acta, 504, (1), 167-177, (2004)
   

Syu MJ et al., An allosteric model for the binding of bilirubin to the bilirubin imprinted poly(methacrylic acid-co-ethylene glycol dimethylacrylate).
Analytica Chimica Acta, 539, (1-2), 97-106, (2005)
   

Syu MJ et al., Binding specificity of [alpha]-bilirubin-imprinted poly(methacrylic acid-co-ethylene glycol dimethylacrylate) toward [alpha]-bilirubin.
Biomaterials, 26, (22), 4684-4692, (2005)
   

Syu MJ et al., Ionic effect on the binding of bilirubin to the imprinted poly(methacrylic acid-co-ethylene glycol dimethylacrylate).
Journal of Chromatography A, 1122, (1-2), 54-62, (2006)
   

Nica V

Qian LW et al., Zwitterionic polymer chain-assisted lysozyme imprinted core-shell carbon microspheres with enhanced recognition and selectivity.
Talanta, 217, Article121085-(2020)
   

Qian LW et al., Fabrication of Raspberry-like Cytochrome C Surface-Imprinted Nanoparticles Based on MOF Composites for High-Performance Protein Separation.
ACS Applied Materials & Interfaces, 13, (26), 31010-31020, (2021)
   

Nicholls C

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)
   

Nicholls I

Ofoegbu O et al., Molecularly Imprinted Chitosan-Based Thin Films with Selectivity for Nicotine Derivatives for Application as a Bio-Sensor and Filter.
Polymers, 13, (19), ArticleNo3363-(2021)
   

Nicholls IA

Andersson LI et al., Book chapter, Molecular imprinting - A versatile technique for the preparation of separation materials of predetermined selectivity, 
In: Highly selective separations in biotechnology, Street G (Ed.) Blackie: London, Ch. 9, 207-225, (1994)
   

Ramström O et al., Synthetic peptide receptor mimics - highly stereoselective recognition in noncovalent molecularly imprinted polymers.
Tetrahedron: Asymmetry, 5, (4), 649-656, (1994)
   

Andersson LI et al., Book chapter, Antibody mimics obtained by noncovalent molecular imprinting, 
In: Immunoassays of Agrochemicals, Karu AE, Nelson JO, Wong RB (Eds.) The American Chemical Society: Washington DC, Ch. 6, 89-96, (1995)
   

Nicholls IA, Thermodynamic considerations for the design of and ligand recognition by molecularly imprinted polymers.
Chemistry Letters, 24, (11), 1035-1036, (1995)
   

Nicholls IA et al., Recognition and enantioselection of drugs and biochemicals using molecularly imprinted polymer technology.
Trends In Biotechnology, 13, (2), 47-51, (1995)
   

Nicholls IA et al., Insights into the role of the hydrogen-bond and hydrophobic effect on recognition in molecularly imprinted polymer synthetic peptide receptor mimics.
Journal of Chromatography A, 691, (1-2), 349-353, (1995)
   

Andersson LI et al., Book chapter, Molecular Imprinting: The current status and future development of polymer-based recognition systems, 
In: Biochemical Technology, Part B, Bittar EE, Danielsson B, Bulow L (Eds.) Elsevier: Amsterdam, Ch. 32, 651-670, (1996)
   

Berglund J et al., Recognition in molecularly imprinted polymer a2-adrenoreceptor mimics.
Bioorganic & Medicinal Chemistry Letters, 6, (18), 2237-2242, (1996)
   

Matsui J et al., Metal ion mediated recognition in molecularly imprinted polymers.
Analytica Chimica Acta, 335, (1-2), 71-77, (1996)
   

Matsui J et al., Carbon-carbon bond formation using substrate selective catalytic polymers prepared by molecular imprinting: An artificial class II aldolase.
Journal of Organic Chemistry, 61, (16), 5414-5417, (1996)
   

Matsui J et al., Highly stereoselective molecularly imprinted polymer synthetic receptors for cinchona alkaloids.
Tetrahedron: Asymmetry, 7, 1357-1361, (1996)
   

Nicholls IA et al., Some recent developments in the preparation of novel recognition systems: A recognition site for the selective catalysis of an aldol condensation using molecular imprinting and specific affinity motifs for a-chymotrypsin using a phage display peptide library.
Journal of Molecular Recognition, 9, (5-6), 652-657, (1996)
   

Nicholls IA, Book chapter, An approach to the semiquantitation of molecular recognition phenomena in molecularly imprinted polymer systems: Consequences for molecularly imprinted polymer design, 
In: Biochemical Technology, Bittar EE, Danielsson B, Bulow L (Eds.) Elsevier: Amsterdam, Ch. 33, 671-679, (1996)
   

Nicholls IA, Book chapter, Molecular Recognition: An Introduction, 
In: Biochemical Technology, Bittar EE (Ed.) Elsevier: Ch. 29, 621-622, (1996)
   

Andersson HS et al., Molecular imprinting: Recent innovations in synthetic polymer receptor and enzyme mimics.
Recent Research Developments in Pure & Applied Chemistry, 1, 133-157, (1997)
   

Andersson HS et al., Spectroscopic evaluation of molecular imprinting polymerization systems.
Bioorganic Chemistry, 25, (3), 203-211, (1997)
   

Berglund J et al., Selection of phage display combinatorial library peptides with affinity for a yohimbine imprinted methacrylate polymer.
Analytical Communications, 35, (1), 3-7, (1998)
   

Knutsson M et al., Novel chiral recognition elements for molecularly imprinted polymer preparation.
Journal of Molecular Recognition, 11, (1-6), 87-90, (1998)
   

Matsui J et al., Molecular recognition in cinchona alkaloid molecular imprinted polymer rods.
Analytica Chimica Acta, 365, (1-3), 89-93, (1998)
   

Nicholls IA, Towards the rational design of molecularly imprinted polymers.
Journal of Molecular Recognition, 11, (1-6), 79-82, (1998)
   

Norell MC et al., Theophylline molecularly imprinted polymer dissociation kinetics: a novel sustained release drug dosage mechanism.
Journal of Molecular Recognition, 11, (1-6), 98-102, (1998)
   

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)
   

Sabourin L et al., Molecularly imprinted polymer combinatorial libraries for multiple simultaneous chiral separations.
Analytical Communications, 35, (9), 285-287, (1998)
   

Svenson J et al., Spectroscopic studies of the molecular imprinting self-assembly process.
Journal of Molecular Recognition, 11, (1-6), 83-86, (1998)
   

Adbo K et al., Enantioselective Tröger's base synthetic receptors.
Bioorganic Chemistry, 27, (5), 363-371, (1999)
   

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)
   

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)
   

Adbo K et al., Enantioselective solid-phase extraction using Tröger's base molecularly imprinted polymers.
Analytica Chimica Acta, 435, (1), 115-120, (2001)
   

Andersson HS et al., Book chapter, A historical perspective of the development of molecular imprinting, 
In: Molecularly Imprinted Polymers: Man-Made Mimics of Antibodies and their Applications in Analytical Chemistry, Sellergren B (Ed.) Elsevier: Amsterdam, Ch. 1, 1-19, (2001)
   

Karlsson JG et al., Probing the molecular basis for ligand-selective recognition in molecularly imprinted polymers selective for the local anaesthetic bupivacaine.
Analytica Chimica Acta, 435, (1), 57-64, (2001)
   

Nicholls IA et al., Foreword.
Bioseparation, 10, (6), 255-255, (2001)
   

Nicholls IA et al., Book chapter, Thermodynamic principles underlying molecularly imprinted polymer formulation and ligand recognition, 
In: Molecularly Imprinted Polymers: Man-Made Mimics of Antibodies and their Applications in Analytical Chemistry, Sellergren B (Ed.) Elsevier: Amsterdam, Ch. 3, 60-70, (2001)
   

Nicholls IA et al., Can we rationally design molecularly imprinted polymers?
Analytica Chimica Acta, 435, (1), 9-18, (2001)
   

Svenson J et al., On the thermal and chemical stability of molecularly imprinted polymers.
Analytica Chimica Acta, 435, (1), 19-24, (2001)
   

Nicholls IA et al., Molecular imprinting of surfaces.
Bioseparation, 10, (6), 301-305, (2002)
   

Andersson LI et al., Molecularly imprinted polymers in separation science - Foreword.
Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 804, (1), 1-1, (2004)
   

Hedin-Dahlström J et al., Stereoselective reduction of menthone by molecularly imprinted polymers.
Tetrahedron: Asymmetry, 15, (15), 2431-2436, (2004)
   

Karlsson JG et al., The roles of template complexation and ligand binding conditions on recognition in bupivacaine molecularly imprinted polymers.
Analyst, 129, (5), 456-462, (2004)
   

Rosengren JP et al., Enantioselective synthetic thalidomide receptors based upon DNA binding motifs.
Organic & Biomolecular Chemistry, 2, (22), 3374-3378, (2004)
   

Svenson J et al., A molecularly imprinted polymer-based synthetic transaminase.
Journal of the American Chemical Society, 126, (27), 8554-8560, (2004)
   

Svenson J et al., H-1 nuclear magnetic resonance study of the molecular imprinting of (-)-nicotine: template self-association, a molecular basis for cooperative ligand binding.
Journal of Chromatography A, 1024, (1-2), 39-44, (2004)
   

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)
   

Piletsky SA et al., Molecularly imprinted polymers - Tyrosinase mimics.
Ukrainskii Biokhimicheskii Zhurnal, 77, (6), 63-67, (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)
   

Rosengren AM et al., Chemometric models of template-molecularly imprinted polymer binding.
Analytical Chemistry, 77, (17), 5700-5705, (2005)
   

Svenson J et al., The role of functional monomer-template complexation on the performance of atrazine molecularly imprinted polymers.
Analytical Letters, 38, (1), 57-69, (2005)
   

Alexander C et al., Molecular imprinting science and technology: a survey of the literature for the years up to and including 2003.
Journal of Molecular Recognition, 19, (2), 106-180, (2006)
   

Hedin-Dahlström J et al., A class II aldolase mimic.
Journal of Organic Chemistry, 71, (13), 4845-4853, (2006)
   

Piletsky SA et al., Synthesis of Biologically Active Molecules by Imprinting Polymerisation.
Biopolymers and Cell, 22, (1), 63-68, (2006)
   

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Nie F et al., Cu2+-imprinted cross-linked chitosan resin as micro-column packing materials for online chemiluminescence determination of trace copper.
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Nie GJ et al., Characterization of Bioimprinted Tannase and Its Kinetic and Thermodynamics Properties in Synthesis of Propyl Gallate by Transesterification in Anhydrous Medium.
Applied Biochemistry and Biotechnology, 167, (8), 2305-2317, (2012)
   

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Zhang Q et al., Preparation and application of molecularly imprinted polymer solid-phase microextraction fiber for the selective analysis of auxins in tobacco.
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Lu S et al., Sorption Properties of Ion-imprinted Seaweed-Chitosan Composite Adsorbents for Nickel Ions.
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Cheng Y et al., A molecularly imprinted polymer synthesized using [beta]-cyclodextrin as the monomer for the efficient recognition of forchlorfenuron in fruits.
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Lu Q et al., Tuning of the vinyl groups' spacing at surface of modified silica in preparation of high density imprinted layer-coated silica nanoparticles: A dispersive solid-phase extraction materials for chlorpyrifos.
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Wang YL et al., Synthesis of a Molecularly Imprinted Polymer on NH2-MIL-101(Cr) for Specific Recognition of Diclofenac Sodium.
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Journal of Inclusion Phenomena and Macrocyclic Chemistry, 61, (1), 147-151, (2008)
   

Wybranska K et al., Adenine Molecularly Imprinted Polymer-Coated Submicrometer Silica Gel Particles.
Chemistry of Materials, 22, (18), 5392-5399, (2010)
   

Plewa A et al., Molecularly Imprinted Hybrid Adsorbents for Adenine and Adenosine-5'-triphosphate.
Journal of Medicinal Chemistry, 55, (20), 8712-8720, (2012)
   

Mikulska A et al., Polymeric/silicagel hybrid molecularly photoimprinted adsorbents for adenosine and its derivatives.
European Polymer Journal, 59, 230-238, (2014)
   

Iwanowska A et al., Selective adsorption of modified nucleoside cancer biomarkers by hybrid molecularly imprinted adsorbents.
Journal of Separation Science, 39, (15), 3072-3080, (2016)
   

Nowatari Y

Egawa Y et al., Preparation of molecularly imprinted cyclodextrin microspheres.
International Journal of Pharmaceutics, 293, (1-2), 165-170, (2005)
   

Nowick JS

Arora PS et al., Design and synthesis of a transition state analogue for the Diels-Alder reaction.
Bioorganic & Medicinal Chemistry, 6, (9), 1421-1428, (1998)
   

Nowicki M

Richter A et al., Nanomechanical measurements on glutamine molecularly imprinted nylon films.
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 284-285, 401-408, (2006)
   

Richter A et al., Processing and morphology of molecularly imprinted nylon thin films.
Journal of Applied Polymer Science, 101, (5), 2919-2926, (2006)
   

Noworyta K

Haupt K et al., Imprinted polymer-based enantioselective acoustic sensor using a quartz crystal microbalance.
Analytical Communications, 36, (12), 391-393, (1999)
   

Sharma PS et al., Fullerene derived molecularly imprinted polymer for chemosensing of adenosine-5'-triphosphate (ATP).
Analytica Chimica Acta, 844, 61-69, (2014)
   

Cieplak M et al., Selective electrochemical sensing of human serum albumin by semi-covalent molecular imprinting.
Biosensors and Bioelectronics, 74, 960-966, (2015)
   

Iskierko Z et al., Extended-gate field-effect transistor (EG-FET) with molecularly imprinted polymer (MIP) film for selective inosine determination.
Biosensors and Bioelectronics, 74, 526-533, (2015)
   

Dabrowski M et al., Early diagnosis of fungal infections using piezomicrogravimetric and electric chemosensors based on polymers molecularly imprinted with d-arabitol.
Biosensors and Bioelectronics, 79, 627-635, (2016)
   

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)
   

Iskierko Z et al., Molecularly imprinted polymers for separating and sensing of macromolecular compounds and microorganisms.
Biotechnology Advances, 34, (1), 30-46, (2016)
   

Sharma PS et al., Potentiometric chemosensor for neopterin, a cancer biomarker, using an electrochemically synthesized molecularly imprinted polymer as the recognition unit.
Biosensors and Bioelectronics, 77, 565-572, (2016)
   

Bartold K et al., Programmed Transfer of Sequence Information into a Molecularly Imprinted Polymer for Hexakis(2, 2'-bithien-5-yl) DNA Analogue Formation toward Single-Nucleotide-Polymorphism Detection.
ACS Applied Materials & Interfaces, 9, (4), 3948-3958, (2017)
   

Dabrowski M et al., Hierarchical templating in deposition of semi-covalently imprinted inverse opal polythiophene film for femtomolar determination of human serum albumin.
Biosensors and Bioelectronics, 94, 155-161, (2017)
   

Dabrowski M et al., Surface enhancement of a molecularly imprinted polymer film using sacrificial silica beads for increasing l-arabitol chemosensor sensitivity and detectability.
Journal of Materials Chemistry B, 5, (31), 6292-6299, (2017)
   

Dabrowski M et al., Semi-Covalent Imprinting for Selective Protein Sensing at a Femtomolar Concentration Level.
Proceedings, 1, (8), ArticleNo771-(2017)
   

Iskierko Z et al., Molecularly imprinted polymer based extended-gate field-effect transistor chemosensors for phenylalanine enantioselective sensing.
Journal of Materials Chemistry C, 5, (4), 969-977, (2017)
   

Iskierko Z et al., Molecular recognition by synthetic receptors: Application in field-effect transistor based chemosensing.
Biosensors and Bioelectronics, 109, 50-62, (2018)
   

Malyshev V et al., Determination of Asymmetric Dimethylarginine by Using Organic Semiconductor-Based Molecularly Imprinted Polymer Film.
ECS Journal of Solid State Science and Technology, 7, (7), Q3189-Q3195, (2018)
   

Sharma PS et al., Synthesis and application of a "plastic antibody" in electrochemical microfluidic platform for oxytocin determination.
Biosensors and Bioelectronics, 100, 251-258, (2018)
   

Zembrzuska D et al., Electrochemically initiated co-polymerization of monomers of different oxidation potentials for molecular imprinting of electroactive analyte.
Sensors and Actuators B: Chemical, 298, Article126884-(2019)
   

Noworyta KR

Huynh TP et al., Electrochemically synthesized molecularly imprinted polymer of thiophene derivatives for flow-injection analysis determination of adenosine-5'-triphosphate (ATP).
Biosensors and Bioelectronics, 41, 634-641, (2013)
   

Cieplak M et al., Selective Electrochemical Sensing of Human Albumin By Semi-Covalent Imprinting.
ECS Meeting Abstracts, MA2015-01, (45), 2309-2309, (2015)
   

Iskierko Z et al., (Invited) Application of Extended-Gate Field-Effect Transistor Sensors with Molecularly Imprinted Polymer Recognition Layers for Determination of Renal Dysfunction Biomarkers.
ECS Meeting Abstracts, MA2017-01, (28), 1315-1315, (2017)
   

Kutner W et al., Conducting Molecularly Imprinted Polymer (MIP) Chemical Sensors for Toxic N-Nitrosamines Selective Determination in Heat Processed Food of Animal Origin.
ECS Meeting Abstracts, MA2017-01, (42), 1919-1919, (2017)
   

Iskierko Z et al., Selective PQQPFPQQ Gluten Epitope Chemical Sensor with a Molecularly Imprinted Polymer Recognition Unit and an Extended-Gate Field-Effect Transistor Transduction Unit.
Analytical Chemistry, 91, (7), 4537-4543, (2019)
   

Lach P et al., Gate Effect Sharma PS et al., 'Gate effect' in molecularly imprinted polymers: the current state of understanding.
Current Opinion in Electrochemistry, 16, 50-56, (2019)
   

Gajda M et al., Low-oxidation-potential thiophene-carbazole monomers for electro-oxidative molecular imprinting: Selective chemosensing of aripiprazole.
Biosensors and Bioelectronics, 169, Article112589-(2020)
   

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)
   

Jyoti et al., Molecularly imprinted polymer nanoparticles-based electrochemical chemosensors for selective determination of cilostazol and its pharmacologically active primary metabolite in human plasma.
Biosensors and Bioelectronics, 193, Article113542-(2021)
   

Lach P et al., Self-reporting molecularly imprinted polymer with the covalently immobilized ferrocene redox probe for selective electrochemical sensing of p-synephrine.
Sensors and Actuators B: Chemical, 344, Article130276-(2021)
   

Noyes KL

Noyes KL et al., Book chapter, Synthesis and evaluation of uranium and thorium imprinted resins, 
In: Scientific Basis For Nuclear Waste Management XXV, Finch RJ, Bullen DB (Eds.) Materials Research Society: Warrendale, 901-906, (2002)
   

Noyes KL et al., Book chapter, Synthesis and evaluation of resins for actinide separations, 
In: Scientific Basis For Nuclear Waste Management XXVI, Finch RJ, Bullen DB (Eds.) Materials Research Society: Warrendale, 635-640, (2003)
   

Nozzi V

Maradonna F et al., A developmental hepatotoxicity study of dietary bisphenol A in Sparus aurata juveniles.
Comparative Biochemistry and Physiology Part C: Toxicology & Pharmacology, 166, 1-13, (2014)
   

Nsibande SA

Nsibande SA et al., Fluorescence detection of pesticides using quantum dot materials - A review.
Analytica Chimica Acta, 945, 9-22, (2016)
   

Nsibande SA et al., Development of a quantum dot molecularly imprinted polymer sensor for fluorescence detection of atrazine.
Luminescence, 34, (5), 480-488, (2019)
   

Ntakirutimana C

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)
   

Ntshongontshi N

Capoferri D et al., MIP-MEPS based sensing strategy for the selective assay of dimethoate. Application to wheat flour samples.
Talanta, 174, 599-604, (2017)
   

Capoferri D et al., Book chapter, Electrochemical Preparation of a MIP-Glassy Carbon Electrode for the Determination of Dimethoate, 
In: Sensors: Proceedings of the Third National Conference on Sensors, February 23-25, 2016, Rome, Italy, Andň B, Baldini F, Di Natale C, Marrazza G, Siciliano P (Eds.) Springer International Publishing: Cham, 157-162, (2018)
   

Nuanplub M

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)
   

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)
   

Nuapia Y

Khulu S et al., Multivariate optimization of a two-way technique for extraction of pharmaceuticals in surface water using a combination of membrane assisted solvent extraction and a molecularly imprinted polymer.
Chemosphere, 286, Article131973-(2022)
   

Nuchtavorn N

Nuchtavorn N et al., Paper-based molecularly imprinted-interpenetrating polymer network for on-spot collection and microextraction of dried blood spots for capillary electrophoresis determination of carbamazepine.
Analytical and Bioanalytical Chemistry, 412, (12), 2721-2730, (2020)
   

Nuhu AA

Basheer C et al., Book chapter, 3.34 - Sample preparation of complex biological samples in the analysis of trace-level contaminants, 
In: Comprehensive Sampling and Sample Preparation, Pawliszyn J (Ed.) Academic Press: Oxford, Ch. 34, 681-700, (2012)
   

Nukeaw J

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)
   

Numnuam A

Fatoni A et al., A novel molecularly imprinted chitosan-acrylamide, graphene, ferrocene composite cryogel biosensor used to detect microalbumin.
Analyst, 139, (23), 6160-6167, (2014)
   

Nunes GS

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)
   

Nunes J

Garcia R et al., Dual-layer solid-phase extraction based on molecular imprinting technology: Seeking a route to enhance selectivity for trace analysis of pesticide residues in olive oil.
Electrophoresis, 37, (13), 1916-1922, (2016)
   

Nunes LCC

Lima HRS et al., Electrochemical sensors and biosensors for the analysis of antineoplastic drugs.
Biosensors and Bioelectronics, 108, 27-37, (2018)
   

Nur AZ

Yang J et al., Detection of trace tetracycline in fish via synchronous fluorescence quenching with carbon quantum dots coated with molecularly imprinted silica.
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 190, 450-456, (2018)
   

Yang J et al., Corrigendum to "Detection of trace tetracycline in fish via synchronous fluorescence quenching with carbon quantum dots coated with molecularly imprinted silica" [Spectrochim. Acta A Mol. Biomol. Spectrosc., 2018, 190: 450-456 (doi: 10.1016/j.saa.2017.09.066)].
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 206, 630-631, (2019)
   

Nur YAA

Saifuddin N et al., Microwave enhanced synthesis of chitosan-graft-polyacrylamide molecular imprinting polymer for selective removal of 17[beta]-estradiol at trace concentration.
Asian Journal of Biochemistry, 6, (1), 38-54, (2011)
   

Nur Z

Muhammad T et al., Rational design of molecularly imprinted polymer: the choice of cross-linker.
Analyst, 137, (11), 2623-2628, (2012)
   

Nurekeyeva K

Redeker ES et al., Biomimetic Bacterial Identification Platform Based on Thermal Wave Transport Analysis (TWTA) through Surface-Imprinted Polymers.
ACS Infectious Diseases, 3, (5), 388-397, (2017)
   

Van Grinsven B et al., SIP-Based Thermal Detection Platform for the Direct Detection of Bacteria Obtained from a Contaminated Surface.
physica status solidi (a), 215, (15), ArticleNo1700777-(2018)
   

Nurerk P

Raksawong P et al., A hybrid molecularly imprinted polymer coated quantum dot nanocomposite optosensor for highly sensitive and selective determination of salbutamol in animal feeds and meat samples.
Analytical and Bioanalytical Chemistry, 409, (20), 4697-4707, (2017)
   

Chullasat K et al., A facile optosensing protocol based on molecularly imprinted polymer coated on CdTe quantum dots for highly sensitive and selective amoxicillin detection.
Sensors and Actuators B: Chemical, 254, 255-263, (2018)
   

Yuphintharakun N et al., A nanocomposite optosensor containing carboxylic functionalized multiwall carbon nanotubes and quantum dots incorporated into a molecularly imprinted polymer for highly selective and sensitive detection of ciprofloxacin.
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 201, 382-391, (2018)
   

Nurrokhimah M et al., A nanosorbent consisting of a magnetic molecularly imprinted polymer and graphene oxide for multi-residue analysis of cephalosporins.
Microchimica Acta, 186, (12), Article822-(2019)
   

Raksawong P et al., A polypyrrole doped with fluorescent CdTe quantum dots and incorporated into molecularly imprinted silica for fluorometric determination of ampicillin.
Microchimica Acta, 186, (6), Article338-(2019)
   

Bunkoed O et al., A nanocomposite optosensor of hydroxyapatite and graphene quantum dots embedded within highly specific polymer for norfloxacin detection.
Microchemical Journal, 158, Article105127-(2020)
   

Nurhayati T

Nurhayati T et al., Synthesis and Study of Guest-Rebinding of MIP Based on MAA Prepared using Theophylline Template.
Journal of Physics: Conference Series, 739, (1), ArticleNo012127-(2016)
   

Yanti et al., Synthesis and characterization of MAA-based molecularly-imprinted polymer (MIP) with D-glucose template.
Journal of Physics: Conference Series, 739, (1), ArticleNo012143-(2016)
   

Nurlely

Sabrina N et al., Molecularly Imprinted Polymer (MIPs) Nanomaterials Modified as Absorbing Cholesterol.
Journal of Physics: Conference Series, 1788, (1), Article012001-(2021)
   

Nurrokhimah M

Nurrokhimah M et al., A nanosorbent consisting of a magnetic molecularly imprinted polymer and graphene oxide for multi-residue analysis of cephalosporins.
Microchimica Acta, 186, (12), Article822-(2019)
   

Nurulla I

Abliz S et al., Preparation of Pb2+ Imprinted Acrylic Acid-co-Styrene and Analysis of Its Adsorption Properties by FAAS.
Spectroscopy and Spectral Analysis, 31, (6), 1702-1706, (2011)
   

Lü XH et al., Adsorption Behavior of Pb(II) Ion Imprinted Magnetic Composite Adsorbent in Aqueous Solution by FAAS.
Spectroscopy and Spectral Analysis, 36, (5), 1483-1487, (2016)
   

Nuryono

Buhani et al., Production of metal ion imprinted polymer from mercapto-silica through sol-gel process as selective adsorbent of cadmium.
Desalination, 251, (1-3), 83-89, (2010)
   

Sakti SCW et al., Adsorption of gold(III) on ionic imprinted amino-silica hybrid prepared from rice hull ash.
Pure And Applied Chemistry, 85, (1), 211-223, (2013)
   

Buhani et al., Adsorption competition of Cu(II) ion in ionic pair and multi-metal solution by ionic imprinted amino-silica hybrid adsorbent.
Desalination and Water Treatment, 55, (5), 1240-1252, (2015)
   

Nussbaum M

Nussbaum M et al., Ultra-thin SiO2 layers on TiO2: improved photocatalysis by enhancing products' desorption.
Physical Chemistry Chemical Physics, 14, (10), 3392-3399, (2012)
   

Nussbaum M et al., Book chapter, Environmental Approaches by Molecular Imprinting on Titanium Dioxide, 
In: Handbook of Molecular Imprinting - Advanced Sensor Applications, Lee SW, Kunitake T (Eds.) Pan Stanford Publishing Pte. Ltd.: Singapore, Ch. 8, 259-330, (2013)
   

Nyberg F

Ghasemzadeh N et al., Highly selective artificial gel antibodies for detection and quantification of biomarkers in clinical samples. I. Spectrophotometric approach to design the calibration curve for the quantification.
Journal of Separation Science, 31, (22), 3945-3953, (2008)
   

Ghasemzadeh N et al., Highly selective artificial gel antibodies for detection and quantification of biomarkers in clinical samples. II. Albumin in body fluids of patients with neurological disorders.
Journal of Separation Science, 31, (22), 3954-3958, (2008)
   

Sedzik J et al., Book chapter, Gels Mimicking Antibodies in Their Selective Recognition of Proteins and Its Potential Use for Protein Crystallization, 
In: Molecules: Nucleation, Aggregation And Crystallization, Sedzik J, Riccio P (Eds.) World Scientific: 11-34, (2009)
   

Ghasemzadeh N et al., Application of artificial gel antibodies for investigating molecular polymorphisms of human pituitary growth hormone.
Amino Acids, 40, (4), 1249-1255, (2011)
   

Nyokong T

Batlokwa BS et al., Optimal Template Removal from Molecularly Imprinted Polymers by Pressurized Hot Water Extraction.
Chromatographia, 73, (5), 589-593, (2011)
   

Nyoni H

Mkhize DS et al., Molecularly imprinted membranes (MIMs) for selective removal of polychlorinated biphenyls (PCBs) in environmental waters: fabrication and characterization.
Environmental Science and Pollution Research, 24, (12), 11694-11707, (2017)
   

Mkhize DS et al., Calibration and field application of a molecularly imprinted membrane-passive sampler for the sampling of indicator polychlorinated biphenyls in selected aquatic environments of South Africa.
Water Science And Technology, 79, (5), 808-819, (2019)
   

Nyulászi L

Nagy-Szakolczai A et al., The molecular imprinting effect of propranolol and dibenzylamine as model templates: Binding strength and selectivity.
Analytica Chimica Acta, 1125, 258-266, (2020)
   

Näslund I

Karlsson BCG et al., Synthetic Human Serum Albumin Sudlow I Binding Site Mimics.
Journal of Medicinal Chemistry, 53, (22), 7932-7937, (2010)
   

Rosengren AM et al., In situ detection of warfarin using time-correlated single-photon counting.
Biochemical and Biophysical Research Communications, 407, (1), 60-62, (2011)
   

Némethy Á

Gyarmati B et al., Reversible disulphide formation in polymer networks: A versatile functional group from synthesis to applications.
European Polymer Journal, 49, (6), 1268-1286, (2013)
   

Núńez L

Núńez L et al., Molecularly imprinted polymer for selective extraction of endocrine disrupters nonylphenol and its ethoxylated derivates from environmental solids.
Journal of Separation Science, 31, (13), 2492-2499, (2008)
   

Núńez L et al., Molecularly imprinted polymer for the extraction of parabens from environmental solid samples prior to their determination by high performance liquid chromatography-ultraviolet detection.
Talanta, 80, (5), 1782-1788, (2010)
   

Núńez O

Lucci P et al., Solid-phase extraction using molecularly imprinted polymer for selective extraction of natural and synthetic estrogens from aqueous samples.
Journal of Chromatography A, 1218, (30), 4828-4833, (2011)
   

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)
   

Núńez O et al., New trends in fast liquid chromatography for food and environmental analysis.
Journal of Chromatography A, 1228, (1), 298-323, (2012)
   

Núńez O et al., State-of-the-art in fast liquid chromatography-mass spectrometry for bio-analytical applications.
Journal of Chromatography B, 927, 3-21, (2013)
   

Lucci P et al., On-line solid-phase extraction for liquid chromatography-mass spectrometry analysis of pesticides.
Journal of Separation Science, 37, (20), 2929-2939, (2014)
   








 

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