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This file last updated: 13/12/2021

EI-Aty AMA

Zhang C et al., A disposable electrochemical sensor based on electrospinning of molecularly imprinted nanohybrid films for highly sensitive determination of the organotin acaricide cyhexatin.
Microchimica Acta, 186, (8), Article504-(2019)
   

Earni R

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

Earni RR

Peeples CJ et al., The synthesis of 1-(4-triethoxysilyl)phenyl-4, 4, 4-trifluoro-1, 3- butanedione, a novel trialkoxysilane monomer for the preparation of functionalized sol-gel matrix materials.
Molecules, 13, (10), 2601-2607, (2008)
   

Eastman C

Eastman C et al., Imprinted polymers in wastewater treatment.
Abstracts of Papers of the American Chemical Society, 227, (ENVR), 049-049, (2004)
   

Eatimadi A

Seidi K et al., Nanomagnet-Based Detoxifying Machine: An Alternative/Complementary Approach in HIV therapy.
AIDS & Clinical Research, 5, (5), Article 304-(2014)
   

Ebarvia BS

Cabanilla S et al., Book chapter, Piezoelectric biomimetic sensor for caffeine based on electrosynthesized polypyrrole, 
In: Sensors: Asiasense 2003 - Asian Conference On Sensors, Ahmad M, Heng LY, Salimon J, Ghodgaonkar DK, Yousof RW, Surif S, Taib MN (Eds.) IEEE: New York, 105-109, (2003)
   

Ebarvia BS et al., Biomimetic piezoelectric quartz sensor for caffeine based on a molecularly imprinted polymer.
Analytical and Bioanalytical Chemistry, 378, (5), 1331-1337, (2004)
   

Ebarvia BS et al., Piezoelectric quartz sensor for caffeine based on molecularly imprinted polymethacrylic acid.
Sensors and Actuators B: Chemical, 107, (2), 782-790, (2005)
   

Ebarvia BS, Proceeding, Biomimetic quartz crystal sensors for caffeine based on conducting polymers, 
34-38, (2005)
   

Ebarvia BS et al., Biomimetic properties and surface studies of a piezoelectric caffeine sensor based on electrosynthesized polypyrrole.
Talanta, 66, (1), 145-152, (2005)
   

Ebarvia BS, Proceeding, Biomimetic quartz crystal sensors for caffeine based on conducting polymers, 
Ghodgaonkar DK, Ahmad M, Heng LY, Habash RW, Wui WT, Taib MN (Eds.), 34-38, (2006)
   

Arenas LF et al., Enantioselective piezoelectric quartz crystal sensor for d-methamphetamine based on a molecularly imprinted polymer.
Analytical and Bioanalytical Chemistry, 397, (7), 3155-3158, (2010)
   

Ebarvia BS et al., Biomimetic piezoelectric quartz crystal sensor with chloramphenicol-imprinted polymer sensing layer.
Talanta, 144, 1260-1265, (2015)
   

Eberlin MN

Figueiredo EC et al., Molecularly imprinted polymers as analyte sequesters and selective surfaces for easy ambient sonic-spray ionization.
Analyst, 135, (4), 726-730, (2010)
   

Figueiredo EC et al., Quantitation of drugs via molecularly imprinted polymer solid phase extraction and electrospray ionization mass spectrometry: benzodiazepines in human plasma.
Analyst, 136, (18), 3753-3757, (2011)
   

Ebert J

Büttiker R et al., Membranes for Specific Adsorption: Immobilizing Molecularly Imprinted Polymer Microspheres using Electrospun Nanofibers.
Chimia, 65, (3), 182-186, (2011)
   

Ebrahimi B

Djozan D et al., Preparation of new solid phase micro extraction fiber on the basis of atrazine-molecular imprinted polymer: Application for GC and GC/MS screening of triazine herbicides in water, rice and onion.
Analytica Chimica Acta, 616, (2), 152-159, (2008)
   

Djozan D et al., Preparation and binding study of solid-phase microextraction fiber on the basis of ametryn-imprinted polymer: Application to the selective extraction of persistent triazine herbicides in tap water, rice, maize and onion.
Journal of Chromatography A, 1216, (12), 2211-2219, (2009)
   

Djozan D et al., Evaluation of a new method for chemical coating of aluminum wire with molecularly imprinted polymer layer. Application for the fabrication of triazines selective solid-phase microextraction fiber.
Analytica Chimica Acta, 674, (1), 40-48, (2010)
   

Ebrahimi M

Samizadeh M et al., Preparation of Molecularly Imprinted Polymers Coupled with Magnetic Nanoparticles for the Selective Extraction of Propranolol from Aqueous Solution of Propranolol, Atenolol and Metoprolol.
Journal of Biochemical Technology, 9, (4), 22-27, (2018)
   

Ebrahimi Rahmani M

Ebrahimi Rahmani M et al., Selective extraction of morphine from biological fluids by magnetic molecularly imprinted polymers and determination using UHPLC with diode array detection.
Journal of Separation Science, 41, (4), 958-965, (2018)
   

Ebrahimi SA

Mohajeri SA et al., Preparation and characterization of a lamotrigine imprinted polymer and its application for drug assay in human serum.
Journal of Separation Science, 31, (20), 3595-3602, (2008)
   

Sadeghi HB et al., Potentiometric Sensing of Lamotrigine Based on Molecularly Imprinted Polymers.
Electroanalysis, 23, (11), 2716-2723, (2011)
   

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)
   

Ebrahimzadeh H

Ebrahimzadeh H et al., Molecular-imprinted polymer extraction combined with dispersive liquid-liquid micro-extraction for ultra-preconcentration of mononitrotoluene.
Journal of Separation Science, 33, (23-24), 3759-3766, (2010)
   

Ebrahimzadeh H et al., Novel magnetic ion imprinted polymer as a highly selective sorbent for extraction of gold ions in aqueous samples.
Analytical Methods, 4, (10), 3232-3237, (2012)
   

Moazzen E et al., Proceeding, Novel ion imprinted polymer coated Fe3O4 nano-particles as a high selective sorbent for solid phase extraction of gold ion, 
1450-1452, (2012)
   

Abedi H et al., Imprinted polymer-based extraction for speciation analysis of inorganic tin in food and water samples.
Reactive and Functional Polymers, 73, (4), 634-640, (2013)
   

Ebrahimzadeh H et al., Novel ion-imprinted polymer coated on nanoporous silica as a highly selective sorbent for the extraction of ultratrace quantities of gold ions from mine stone samples.
Microchimica Acta, 180, (5-6), 445-451, (2013)
   

Ebrahimzadeh H et al., Molecularly imprinted nano particles combined with miniaturized homogenous liquid-liquid extraction for the selective extraction of loratadine in plasma and urine samples followed by high performance liquid chromatography-photo diode array detection.
Analytica Chimica Acta, 767, 155-162, (2013)
   

Ebrahimzadeh H et al., Novel ion imprinted polymer coated multiwalled carbon nanotubes as a high selective sorbent for determination of gold ions in environmental samples.
Chemical Engineering Journal, 215-216, 315-321, (2013)
   

Ebrahimzadeh H et al., Optimization of Cu(II)-ion imprinted nanoparticles for trace monitoring of copper in water and fish samples using a Box-Behnken design.
Reactive and Functional Polymers, 73, (1), 23-29, (2013)
   

Ebrahimzadeh H et al., Determination of haloperidol in biological samples using molecular imprinted polymer nanoparticles followed by HPLC-DAD detection.
International Journal of Pharmaceutics, 453, (2), 601-609, (2013)
   

Moazzen E et al., A high selective ion-imprinted polymer grafted on a novel nanoporous material for efficient gold extraction.
Journal of Separation Science, 36, (11), 1826-1833, (2013)
   

Ebrahimzadeh H et al., New magnetic polymeric nanoparticles for extraction of trace cadmium ions and the determination of cadmium content in diesel oil samples.
Analytical Methods, 6, (13), 4617-4624, (2014)
   

Asgharinezhad AA et al., A simple and fast method based on new magnetic ion imprinted polymer nanoparticles for the selective extraction of Ni(II) ions in different food samples.
RSC Advances, 5, (56), 45510-45519, (2015)
   

Ebrahimzadeh H et al., A magnetic ion-imprinted polymer for lead(II) determination: A study on the adsorption of lead(II) by beverages.
Journal of Food Composition and Analysis, 41, 74-80, (2015)
   

Panjali Z et al., Development of a selective sorbent based on a magnetic ion imprinted polymer for the preconcentration and FAAS determination of urinary cadmium.
Analytical Methods, 7, (8), 3618-3624, (2015)
   

Bagheri H et al., Magnetic molecularly imprinted composite for the selective solid-phase extraction of p-aminosalicylic acid followed by high-performance liquid chromatography with ultraviolet detection.
Journal of Separation Science, 39, (21), 4166-4174, (2016)
   

Panjali Z et al., A Simple and Fast Method Based on New Magnetic Ion Im-printed Polymer as a Highly Selective Sorbent for Preconcentra-tion and Determination of Cadmium in Environmental Samples.
Iranian Journal of Public Health, 45, (8), 1044-1053, (2016)
   

Ebrahimzadeh H et al., A novel lead imprinted polymer as the selective solid phase for extraction and trace detection of lead ions by flame atomic absorption spectrophotometry: Synthesis, characterization and analytical application.
Arabian Journal of Chemistry, 10, S2499-S2508, (2017)
   

Landarani M et al., A magnetic ion-imprinted polymer composed of silica-coated magnetic nanoparticles and polymerized 4-vinyl pyridine and 2, 6-diaminopyridine for selective extraction and determination of lead ions.
New Journal of Chemistry, 44, (18), 7561-7568, (2020)
   

Jalilian N et al., Magnetic molecularly imprinted polymer for the selective dispersive micro solid phase extraction of phenolphthalein in urine samples and herbal slimming capsules prior to HPLC-PDA analysis.
Microchemical Journal, 160, Article105712-(2021)
   

Echegoyen L

Herranz MA et al., Metal ion recognition and molecular templating in self-assembled monolayers of cyclic and acyclic polyethers.
Proceedings of the National Academy of Sciences of the United States of America, 99, (8), 5040-5047, (2002)
   

Eckhardt A

Cserhati T et al., Chromatographic determination of herbicide residues in various matrices.
Biomedical Chromatography, 18, (6), 350-359, (2004)
   

Economou A

Theodoridis G et al., Automated sample preparation based on the sequential injection principle - Solid-phase extraction on a molecularly imprinted polymer coupled on-line to high-performance liquid chromatography.
Journal of Chromatography A, 1030, (1-2), 69-76, (2004)
   

Edañol YDG

Edañol YDG et al., Proceeding, Potentiometric determination of a regulated veterinary drug via MIP-modified electrode, 
71-74, (2016)
   

Ederth T

Suriyanarayanan S et al., Biotinyl moiety-selective polymer films with highly ordered macropores.
Chemical Communications, 49, (46), 5274-5276, (2013)
   

Edmiston PL

Graham AL et al., Development and characterization of molecularly imprinted sol-gel materials for the selective detection of DDT.
Analytical Chemistry, 74, (2), 458-467, (2002)
   

Edmiston PL et al., Fluorescence-based sensing of fluorene using a molecularly imprinted sol-gel material.
Abstracts of Papers of the American Chemical Society, 225, (ANYL), 164-164, (2003)
   

Burkett CM et al., Selective binding of nitroaromatic compounds by molecularly imprinted sol-gel materials: Progress towards a chemical sensor for TNT.
Abstracts of Papers of the American Chemical Society, 227, (ANYL), 121-121, (2004)
   

Dean SL et al., Characterization of molecularly imprinted sol-gel materials by nitrogen absorption-desorption.
Abstracts of Papers of the American Chemical Society, 227, (CHED), 728-728, (2004)
   

Burkett CM et al., Generating selective binding matrixes for TNT using molecular imprinting: The effect of template and processing conditions.
Abstracts of Papers of the American Chemical Society, 229, (ANYL), 046-046, (2005)
   

Dean SL et al., Molecularly imprinted sol-gel films for the detection of TNT.
Abstracts of Papers of the American Chemical Society, 229, (CHED), 343-343, (2005)
   

Barton K et al., Synthesis and characterization of sol-gels molecularly imprinted for trinitrotoluene.
Abstracts of Papers of the American Chemical Society, 231, (CHED), 241-241, (2006)
   

Carlson CA et al., Sensor for fluorene based on the incorporation of an environmentally sensitive fluorophore proximal to a molecularly imprinted binding site.
Analytical Chemistry, 78, (11), 3537-3542, (2006)
   

Timmers M et al., Developing a chemical sensor for trinitrotoluene based on integrated optics waveguide spectrometry using molecularly imprinted sol-gel as a recognition element.
Abstracts of Papers of the American Chemical Society, 231, (ANYL), 186-186, (2006)
   

Walker NR et al., Selective detection of gas-phase TNT by integrated optical waveguide spectrometry using molecularly imprinted sol-gel sensing films.
Analytica Chimica Acta, 593, (1), 82-91, (2007)
   

Edmiston PL et al., Detection of vapor phase trinitrotoluene in the parts-per-trillion range using waveguide interferometry.
Sensors and Actuators B: Chemical, 143, (2), 574-582, (2010)
   

Edmunds BJ

Mugo SM et al., An integrated carbon entrapped molecularly imprinted polymer (MIP) electrode for voltammetric detection of resveratrol in wine.
Analytical Methods, 7, (21), 9092-9099, (2015)
   

Edris-Tabrizi F

Riahi S et al., A computational approach to studying monomer selectivity towards the template in an imprinted polymer.
Journal of Molecular Modeling, 15, (7), 829-836, (2009)
   

Edrisi M

Khorrami AR et al., Synthesis and Evaluation of a Molecularly Imprinted Polymer for Solid Phase Extraction of Ethopabate from Chicken Tissue.
Separation Science and Technology, 45, (3), 404-412, (2010)
   

Edwards JD

Smith CB et al., In Situ Surface-Etched Bacterial Spore Detection Using Dipicolinic Acid - Europium - Silica Nanoparticle Bioreporters.
Applied Spectroscopy, 65, (8), 866-875, (2011)
   

Eerikainen T

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

Eersels K

Eersels K et al., Selective Identification of Macrophages and Cancer Cells Based on Thermal Transport through Surface-Imprinted Polymer Layers.
ACS Applied Materials & Interfaces, 5, (15), 7258-7267, (2013)
   

Bers K et al., Heat-Transfer Resistance Measurement Method (HTM)-Based Cell Detection at Trace Levels Using a Progressive Enrichment Approach with Highly Selective Cell-Binding Surface Imprints.
Langmuir, 30, (12), 3631-3639, (2014)
   

Van Grinsven B et al., The Heat-Transfer Method: A Versatile Low-Cost, Label-Free, Fast, and User-Friendly Readout Platform for Biosensor Applications.
ACS Applied Materials & Interfaces, 6, (16), 13309-13318, (2014)
   

Eersels K et al., Improving the sensitivity of the heat-transfer method (HTM) for cancer cell detection with optimized sensor chips.
physica status solidi (a), 212, (6), 1320-1326, (2015)
   

Eersels K et al., Heat-Transfer-Method-Based Cell Culture Quality Assay through Cell Detection by Surface Imprinted Polymers.
Langmuir, 31, (6), 2043-2050, (2015)
   

Eersels K et al., A Review on Synthetic Receptors for Bioparticle Detection Created by Surface-Imprinting Techniques - From Principles to Applications.
ACS Sensors, 1, (10), 1171-1187, (2016)
   

Peeters M et al., Book chapter, Molecularly Imprinted Polymers: Synthetic Receptors for Diagnostic Medical Devices, 
In: Molecularly Imprinted Catalysts: Principles, Syntheses and Applications, Li SJ, Cao SS, Piletsky SA, Turner APF (Eds.) Elsevier: Amsterdam, Ch. 13, 253-271, (2016)
   

Van Grinsven B et al., Label-Free Detection of Escherichia coli Based on Thermal Transport through Surface Imprinted Polymers.
ACS Sensors, 1, (9), 1140-1147, (2016)
   

Diliën H et al., Label-Free Detection of Small Organic Molecules by Molecularly Imprinted Polymer Functionalized Thermocouples: Toward In Vivo Applications.
ACS Sensors, 2, (4), 583-589, (2017)
   

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)
   

Pawley JC et al., Studying the Drug Delivery Kinetics of a Nanoporous Matrix Using a MIP-Based Thermal Sensing Platform.
Polymers, 9, (11), ArticleNo560-(2017)
   

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)
   

Stilman W et al., Optimization and characterization of a flow cell for heat-transfer-based biosensing.
physica status solidi (a), 214, (9), ArticleNo1600758-(2017)
   

Vandenryt T et al., Single-Shot Detection of Neurotransmitters in Whole-Blood Samples by Means of the Heat-Transfer Method in Combination with Synthetic Receptors.
Sensors, 17, (12), ArticleNo2701-(2017)
   

Betlem K et al., Development of a Flexible MIP-Based Biosensor Platform for the Thermal Detection of Neurotransmitters.
MRS Advances, 3, (28), 1569-1574, (2018)
   

Canfarotta F et al., A novel thermal detection method based on molecularly imprinted nanoparticles as recognition elements.
Nanoscale, 10, (4), 2081-2089, (2018)
   

Eersels K et al., A Novel Biomimetic Tool for Assessing Vitamin K Status Based on Molecularly Imprinted Polymers.
Nutrients, 10, (6), ArticleNo751-(2018)
   

Eersels K et al., Book chapter, Heat Transfer as a New Sensing Technique for the Label-Free Detection of Biomolecules, 
In: Label-Free Biosensing: Advanced Materials, Devices and Applications, Schöning MJ, Poghossian A (Eds.) Springer International Publishing: Cham, 383-407, (2018)
   

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)
   

Yongabi D et al., Cell detection by surface imprinted polymers SIPs: A study to unravel the recognition mechanisms.
Sensors and Actuators B: Chemical, 255, (Part 1), 907-917, (2018)
   

Crapnell RD et al., Thermal Detection of Cardiac Biomarkers Heart-Fatty Acid Binding Protein and ST2 Using a Molecularly Imprinted Nanoparticle-Based Multiplex Sensor Platform.
ACS Sensors, 4, (10), 2838-2845, (2019)
   

Crapnell RD et al., Recent Advances in Electrosynthesized Molecularly Imprinted Polymer Sensing Platforms for Bioanalyte Detection.
Sensors, 19, (5), ArticleNo1204-(2019)
   

Heidt B et al., Biomimetic Bacterial Identification Platform Based on Thermal Transport Analysis Through Surface Imprinted Polymers: From Proof of Principle to Proof of Application.
physica status solidi (a), 216, (12), Article1800688-(2019)
   

Lowdon JW et al., Substrate displacement colorimetry for the detection of diarylethylamines.
Sensors and Actuators B: Chemical, 282, 137-144, (2019)
   

Lowdon JW et al., Surface grafted molecularly imprinted polymeric receptor layers for thermal detection of the New Psychoactive substance 2-methoxphenidine.
Sensors and Actuators A: Physical, 295, 586-595, (2019)
   

Betlem K et al., Thermistors coated with molecularly imprinted nanoparticles for the electrical detection of peptides and proteins.
Analyst, 145, (16), 5419-5424, (2020)
   

Lowdon JW et al., A Molecularly Imprinted Polymer-based Dye Displacement Assay for the Rapid Visual Detection of Amphetamine in Urine.
Molecules, 25, (22), ArticleNo5222-(2020)
   

Lowdon JW et al., MIPs for commercial application in low-cost sensors and assays - An overview of the current status quo.
Sensors and Actuators B: Chemical, 325, Article128973-(2020)
   

Arreguin-Campos R et al., Biomimetic sensing of Escherichia coli at the solid-liquid interface: From surface-imprinted polymer synthesis toward real sample sensing in food safety.
Microchemical Journal, 169, Article106554-(2021)
   

Lowdon JW et al., Identifying Potential Machine Learning Algorithms for the Simulation of Binding Affinities to Molecularly Imprinted Polymers.
Computation, 9, (10), ArticleNo103-(2021)
   

Eevers W

Vendamme R et al., Influence of Polymer Morphology on the Capacity of Molecularly Imprinted Resins to Release or to Retain their Template.
Polymer Journal, 41, (12), 1055-1066, (2009)
   

Efendiev A

Kabanov VA et al., Synthesis and investigation of a complexing sorbent with macromolecule arrangement tuned to ion sorption.
Doklady Akademii Nauk SSSR, 238, (2), 356-358, (1978)
   

Efendiev A, Guest-host phenomena in macro molecule-metal complexes.
Macromolecular Symposia, 186, (1), 165-170, (2002)
   

Efendiev AA

Efendiev AA et al., Preparation of a complexing polymeric sorbent with arrangement of macromolecules favorable for sorbing ion.
Vysokomolekulyarnye Soedineniya Seriya B, 19, (2), 91-92, (1977)
   

Kabanov VA et al., Complex-forming polymeric sorbents with macromolecular arrangement favourable for ion sorption.
Journal of Applied Polymer Science, 24, (1), 259-267, (1979)
   

Efendiev AA et al., Investigation of sorption properties of complexing polymer sorbents adjusted to different ions.
Doklady Akademii Nauk SSSR, 255, (6), 1393-1395, (1980)
   

Efendiev AA et al., Selective polymer complexons prearranged for metal-ions sorption.
Pure And Applied Chemistry, 54, (11), 2077-2092, (1982)
   

Efendiev AA et al., Selective polymer sorbents on the basis of copolymers of dialkyl esters of vinylphosphonic acid and acrylic acid.
Reactive Polymers, Ion Exchangers, Sorbents, 1, (4), 295-300, (1983)
   

Efendiev AA et al., Complex-forming polymer sorbents on the basis of 4-vinylpyridine.
Vysokomolekulyarnye Soedineniya Seriya B, 26, (7), 490-492, (1984)
   

Efendiev AA et al., Synthesis and study of complex-forming polymer sorbents on the basis of polyethylenepolyamines.
Vysokomolekulyarnye Soedineniya Seriya B, 27, (4), 264-266, (1985)
   

Efendiev AA et al., Book chapter, Homogeneous and heterogeneous catalysis, Yermakov Y, Likholobov V (Eds.) VNU Science: Utrecht, 717-725, (1986)
   

Efendiev AA et al., Structural setting of active-centers of metallopolymeric complex catalysis for hydrocarbon substrate.
Kinetics And Catalysis, 27, (2), 451-452, (1986)
   

Kabanov VA et al., An EPR study of copper(II) complexes with structured polymeric sorbents.
Polymer Science U. S. S. R., 28, (11), 2736-2742, (1986)
   

Efendiev AA et al., 4-Vinylpyridine-based complexing polymer sorbents oriented towards the copper-ion sorption.
Doklady Akademii Nauk SSSR, 300, (6), 1393-1395, (1988)
   

Molochnikov LS et al., Synthesis and study of prearranged for nickel sorbents on the basis of polyethylene polyamines.
Polymer Science U. S. S. R., 31, (5), 1168-1172, (1989)
   

Molochnikov LS et al., Thermochemical properties of polyvinylpyridine complex-forming sorbents for metals sorption.
Vysokomolekulyarnye Soedineniya Seriya B, 32, (12), 945-947, (1990)
   

Efendiev AA, Complexing polymer sorbents and metal polymer complex catalysts with specially designed structure of active centers.
Macromolecular Symposia, 80, (1), 289-313, (1994)
   

Efendiev AA et al., Book chapter, Metal-Containing Polymeric Materials, Pittman CU, Carraher CEJr, Culbertson BM, Sheats JE, Zeldin M (Eds.) Plenum Press: New York, 255-264, (1996)
   

Efendiev AA et al., Book chapter, Polymer supported metal complex catalysts with memory, 
In: Preparation of Catalysts VII, Delmon B, Jacobs PA, Maggi R, Martens JA, Grange P, Poncelet G (Eds.) Elesevier: Amsterdam, 533-540, (1998)
   

Efendiev AA, Macromolecular metal complexes with memory to the catalyzed substrate.
Macromolecular Symposia, 131, (1), 29-38, (1998)
   

Molochnikov LS et al., Coordination of Cu(II) and Ni(II) in polymers imprinted so as to optimize amine chelate formation.
Polymer, 44, (17), 4805-4815, (2003)
   

Effenberger F

Willner I et al., Photoregulation of a-chymotrypsin activity in organic media - Effects of bioimprinting.
Photochemistry And Photobiology, 59, (4), 491-496, (1994)
   

Effting L

Prete MC et al., Preparation of Molecularly Imprinted Poly(methacrylic acid) Grafted on Iniferter-Modified Multiwalled Carbon Nanotubes by Living-Radical Polymerization for 17[beta]-Estradiol Extraction.
Journal of Chemical & Engineering Data, 64, (5), 1978-1990, (2019)
   

Eftekhari BS

Eftekhari BS et al., Conductive chitosan/polyaniline hydrogel with cell-imprinted topography as a potential substrate for neural priming of adipose derived stem cells.
RSC Advances, 11, (26), 15795-15807, (2021)
   

Eftekhari M

Ramezani F et al., Molecularly Imprinted Polymer of Colocynthin, An Effective Tool for Quality Control of Citrullus colocynthis Extracts.
Current Drug Discovery Technologies, 14, (3), 169-180, (2017)
   

Egan TJ

Egan TJ et al., Nucleation of calcium oxalate crystals on an imprinted polymer surface from pure aqueous solution and urine.
Journal of Biological Inorganic Chemistry, 9, (2), 195-202, (2004)
   

Egan VM

Huang JX et al., Enantioselective discrimination of D- and L-phenylalanine by chiral polyaniline thin films.
Advanced Materials, 15, (14), 1158-1161, (2003)
   

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Rezaei B et al., 3D TiO2 self-acting system based on dye-sensitized solar cell and g-C3N4/TiO2-MIP to enhanced photodegradation performance.
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Zakery M et al., A Novel Optosensor for Rapid Detection of Difenoconazole Using Molecularly Imprinted Polymers.
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Ensafi AA et al., An optical sensor with specific binding sites for the detection of thioridazine hydrochloride based on ZnO-QDs coated with molecularly imprinted polymer.
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Shariati R et al., Application of coated green source carbon dots with silica molecularly imprinted polymers as a fluorescence probe for selective and sensitive determination of phenobarbital.
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Ghani SM et al., Preparation and comparison of molecularly imprinted polymer fluorimetric nanoprobe based on polymer dots and carbon quantum dots for determination of acetamiprid using response surface method.
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Epinat’ev ID

Losev VV et al., An acoustic study of the selective absorption of vapors by microporous polymer films (Original Russian Text published in Khimicheskaya Fizika, 2009, Vol. 28, No. 11, pp. 79–92.).
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Erdossy J

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Erdönmez D

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Eremenko A

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Eremin SA

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Eremina OE

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Eren T

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Yola ML et al., Molecularly imprinted electrochemical biosensor based on Fe@Au nanoparticles involved in 2-aminoethanethiol functionalized multi-walled carbon nanotubes for sensitive determination of cefexime in human plasma.
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Atar N et al., A molecular imprinted SPR biosensor for sensitive determination of citrinin in red yeast rice.
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Eren T et al., A sensitive molecularly imprinted polymer based quartz crystal microbalance nanosensor for selective determination of lovastatin in red yeast rice.
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Gupta VK et al., Selective QCM sensor based on atrazine imprinted polymer: Its application to wastewater sample.
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Yola ML et al., A sensitive molecular imprinted electrochemical sensor based on gold nanoparticles decorated graphene oxide: Application to selective determination of tyrosine in milk.
Sensors and Actuators B: Chemical, 210, 149-157, (2015)
   

Yola ML et al., Sensitive and selective determination of aqueous triclosan based on gold nanoparticles on polyoxometalate/reduced graphene oxide nanohybrid.
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Atar N et al., Sensitive determination of citrinin based on molecular imprinted electrochemical sensor.
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Ertan B et al., Sensitive analysis of simazine based on platinum nanoparticles on polyoxometalate/multi-walled carbon nanotubes.
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Yola ML et al., A Molecular Imprinted Voltammetric Sensor Based on Carbon Nitride Nanotubes: Application to Determination of Melamine.
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Erfanian S

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Erfanifar Z

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Food Analytical Methods, 10, (7), 2593-2606, (2017)
   

Ergen A

Uygun M et al., New generation ion-imprinted nanocarrier for removal of Cr(VI) from wastewater.
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Ergün B

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Çaktü K et al., Cholesterol removal from various samples by cholesterol-imprinted monosize microsphere-embedded cryogels.
Artificial Cells, Nanomedicine, and Biotechnology, 42, (6), 365-375, (2014)
   

Eriksen RL

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Eriksson LA

Karlsson BCG et al., Structure and Dynamics of Monomer-Template Complexation: An Explanation for Molecularly Imprinted Polymer Recognition Site Heterogeneity.
Journal of the American Chemical Society, 131, (37), 13297-13304, (2009)
   

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Bagán H et al., Synthesis and characterization of epitope-imprinted polymers for purification of human hemoglobin.
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Erkens-Hulshof S

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)
   

Erlenmeyer H

Erlenmeyer H et al., Über das Problem der Ähnlichkeit in der Chemie. Über spezifisch adsorbierende Silikagele II.
Helvetica Chimica Acta, 47, (5), 1285-1288, (1964)
   

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Ermak SS

Churilina EV et al., New N-vinylamide-based polymers for the preconcetration of nitrophenols from aqueous media (originally published as Zhurnal Analiticheskoi Khimii, 2012, Vol. 67, No. 9, pp. 855-859).
Journal of Analytical Chemistry, 67, (9), 767-771, (2012)
   

Ermis I

Ertan B et al., Sensitive analysis of simazine based on platinum nanoparticles on polyoxometalate/multi-walled carbon nanotubes.
Journal of Colloid and Interface Science, 470, 14-21, (2016)
   

Ermis N

Uygun ZO et al., Book chapter, Molecularly Imprinted Sensors - New Sensing Technologies, 
In: Biosensors - Micro and Nanoscale Applications, Rinken T (Ed.) InTech: Ch. 3, 85-108, (2015)
   

Ermis N et al., Preparation of molecularly imprinted electrochemical sensor for l-phenylalanine detection and its application.
Journal of Electroanalytical Chemistry, 807, 244-252, (2017)
   

Ermis N et al., Preparation of Molecularly Imprinted Polypyrrole Modified Gold Electrode for Determination of Tyrosine in Biological Samples.
International Journal of Electrochemical Science, 13, 2286-2298, (2018)
   

Ermolaeva T

Karaseva N et al., Piezoelectric sensors using molecularly imprinted nanospheres for the detection of antibiotics.
Sensors and Actuators B: Chemical, 225, 199-208, (2016)
   

Ermolaeva TN

Karaseva NA et al., Development of Piezoelectric Sensors on the Basis of Electrosynthesized Molecularly Imprinted Polymers for [beta]-lactam Antibiotics' Detection.
Procedia Technology, 27, 185-186, (2017)
   

Karaseva NA et al., Synthesis and application of molecularly imprinted polymers for trypsin piezoelectric sensors.
Sensors and Actuators B: Chemical, 280, 272-279, (2019)
   

Ermolayeva TN

Ermolayeva TN et al., Synthesis and Use of Thin Polymer Films with Molecular Imprints of Salbutamol in Quartz Crystal Microbalance Sensors.
Journal of Analytical Chemistry, 74, (2), S1-S8, (2019)
   

Erny GL

Figueiredo L et al., Applications of molecularly imprinted polymers to the analysis and removal of personal care products: A review.
Talanta, 146, 754-765, (2016)
   

Eroglu AE

Olcer YA et al., Development of molecularly imprinted polymers (MIPs) as a solid phase extraction (SPE) sorbent for the determination of ibuprofen in water.
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Demirkurt M et al., Electrospun polystyrene fibers knitted around imprinted acrylate microspheres as sorbent for paraben derivatives.
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Ersöz A et al., Removal of phenolic compounds with nitrophenol-imprinted polymer based on p-p and hydrogen-bonding interactions.
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Ersöz A, Phenolics Separation by Molecularly Imprinted Monolithic CEC Column.
Hacettepe Journal of Biology and Chemistry, 36, (4), 353-362, (2008)
   

Karabörk M et al., Polymer-Clay Nanocomposite Iron Traps Based on Intersurface Ion-Imprinting.
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Akdamar HA et al., Separation and purification of hyaluronic acid by glucuronic acid imprinted microbeads.
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Diltemiz SE et al., Designing of MIP based QCM sensor having thymine recognition sites based on biomimicking DNA approach.
Biosensors and Bioelectronics, 25, (3), 599-603, (2009)
   

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Say RI et al., Preparation of new molecularly imprinted quartz crystal microbalance hybride sensor system for 8-hydroxy-2'-deoxyguanosine determination.
Analytica Chimica Acta, 640, (1-2), 82-86, (2009)
   

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Erdem M et al., Biomimicking, metal-chelating and surface-imprinted polymers for the degradation of pesticides.
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Karabörk M et al., Selective Preconcentration of Fe3+ Using Ion-Imprinted Thermosensitive Particles.
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Özkütük EB et al., Thiocyanate separation by imprinted polymeric systems.
Microchimica Acta, 169, (1), 129-135, (2010)
   

Özkütük EB et al., Selective Solid-Phase Extraction of Cd(II) Using Double Imprinting Strategy.
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Keçili R et al., Superparamagnetic nanotraps containing MIP based mimic lipase for biotransformations uses.
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Dolak I et al., Ion-Imprinted Polymers for Selective Recognition of Neodymium(III) in Environmental Samples.
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Özkütük EB et al., Determination of Clenbuterol by Multiwalled Carbon Nanotube Potentiometric Sensors.
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Birlik Özkütük E et al., Synergistic thallium and iodine memory-based cryogel traps for removing thallium and iodine ions.
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Büyüktiryaki S et al., Phosphoserine imprinted nanosensor for detection of Cancer Antigen 125.
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Dolak I et al., Molecularly imprinted affinity cryogels for the selective recognition of myoglobin in blood serum.
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Ertan B et al., Sensitive analysis of simazine based on platinum nanoparticles on polyoxometalate/multi-walled carbon nanotubes.
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Ertugrul Uygun HD et al., Non-invasive cortisol detection in saliva by using molecularly cortisol imprinted fullerene-acrylamide modified screen printed electrodes.
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Ertürk Bergdahl G

Ertürk Bergdahl G et al., In Vivo Detection and Absolute Quantification of a Secreted Bacterial Factor from Skin Using Molecularly Imprinted Polymers in a Surface Plasmon Resonance Biosensor for Improved Diagnostic Abilities.
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Ertürk G

Ertürk G et al., Fab fragments imprinted SPR biosensor for real-time human immunoglobulin G detection.
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Bereli N et al., Oriented immobilized anti-hIgG via Fc fragment-imprinted PHEMA cryogel for IgG purification.
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Ertürk G et al., Molecularly imprinted cryogels for human interferon-alpha purification from human gingival fibroblast culture.
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Ertürk G et al., Molecularly Imprinted Supermacroporous Cryogels for Myoglobin Recognition.
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Ertürk G et al., Microcontact-BSA imprinted capacitive biosensor for real-time, sensitive and selective detection of BSA.
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Ertürk G et al., Cryogels-versatile tools in bioseparation.
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Ertürk G et al., Real-time prostate-specific antigen detection with prostate-specific antigen imprinted capacitive biosensors.
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Ertürk G et al., Microcontact imprinting based surface plasmon resonance (SPR) biosensor for real-time and ultrasensitive detection of prostate specific antigen (PSA) from clinical samples.
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Ertürk G et al., A sensitive and real-time assay of trypsin by using molecular imprinting-based capacitive biosensor.
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Ertürk G et al., Capacitive Biosensors and Molecularly Imprinted Electrodes.
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Ertürk G et al., Bacteriophages as biorecognition elements in capacitive biosensors: Phage and host bacteria detection.
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Ertürk G et al., Highly sensitive detection and quantification of the secreted bacterial benevolence factor RoxP using a capacitive biosensor: A possible early detection system for oxidative skin diseases.
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Ertürk G et al., Bisphosphonate ligand mediated ultrasensitive capacitive protein sensor: complementary match of supramolecular and dynamic chemistry.
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Mardani L et al., Preparation of Molecularly Imprinted Magnetic Graphene Oxide-Gold Nanocomposite and Its Application to the Design of Electrochemical Sensor for Determination of Epinephrine.
Analytical Sciences, 35, (11), 1173-1182, (2019)
   

Mardani L et al., Design and construction of a carbon paste electrode modified with molecularly imprinted polymer-grafted nanocomposites for the determination of thyroxin in biological samples.
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Es'haghi Z

Golsefidi MA et al., Design, synthesis and evaluation of a molecularly imprinted polymer for hollow fiber - solid phase microextraction of chlorogenic acid in medicinal plants.
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Sarabadani P et al., Synthesis and characterization of a novel nanostructured ion-imprinted polymer for pre-concentration of Y(III) ions.
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Sarabadani P et al., Solid phase extraction of radioyttrium from irradiated strontium target using nanostructure ion imprinted polymer formed with 1-hydroxy-4-(prop-2-enyloxy)-9, 10-anthraquinone.
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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.
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Feizy J et al., HPLC Determination of Hexythiazox in Food Samples by MISPE Extraction.
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Nezhadali A et al., Selective Extraction of Cholesterol from Dairy Samples Using a Polypyrrole Molecularly Imprinted Polymer and Determination by Gas Chromatography.
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Hatamluyi B et al., Electrochemical biosensing platform based on molecularly imprinted polymer reinforced by ZnO-graphene capped quantum dots for 6-mercaptopurine detection.
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Escarpa A

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TrAC Trends in Analytical Chemistry, 27, (1), 54-65, (2008)
   

Escobar CE

Escobar CE, Proceeding, The effect of the imprinted silicas prepared by sol-gel route on adsoption of rhodamine B: Textural and structural aspects, 
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Escobedo JO

Wang JL et al., Templated polymers enable selective capture and release of lysophosphatidic acid in human plasma via optimization of non-covalent binding to functional monomers.
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Soysal M et al., A Novel and Selective Methylene Blue Imprinted Polymer Modified Carbon Paste Electrode.
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Ahmad OS et al., Molecularly Imprinted Polymers in Electrochemical and Optical Sensors.
Trends In Biotechnology, 37, (3), 294-309, (2019)
   

Dinc M et al., Recent advances on core-shell magnetic molecularly imprinted polymers for biomacromolecules.
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Esen C et al., Highly Efficient Abiotic Assay Formats for Methyl Parathion: Molecularly Imprinted Polymer Nanoparticle Assay as an Alternative to Enzyme-Linked Immunosorbent Assay.
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Esen E et al., Molecularly imprinted solid-phase extraction sorbent for selective determination of melatonin.
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Janfaza S et al., A selective chemiresistive sensor for the cancer-related volatile organic compound hexanal by using molecularly imprinted polymers and multiwalled carbon nanotubes.
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Esfandyari-Manesh M et al., Synthesis and evaluation of uniformly sized carbamazepine-imprinted microspheres and nanospheres prepared with different mole ratios of methacrylic acid to methyl methacrylate for analytical and biomedical applications.
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Esfandyari-Manesh M et al., The control of morphological and size properties of carbamazepine-imprinted microspheres and nanospheres under different synthesis conditions.
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Ishkuh FA et al., Synthesis and characterization of paclitaxel-imprinted nanoparticles for recognition and controlled release of an anticancer drug.
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Esfandyari-Manesh M et al., Paclitaxel molecularly imprinted polymer-PEG-folate nanoparticles for targeting anticancer delivery: Characterization and cellular cytotoxicity.
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Hasanzadeh M et al., Electrochemical nano-immunosensing of effective cardiac biomarkers for acute myocardial infarction.
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Eskandari H

Eskandari H et al., Molecularly imprinted polymers on CdS quantum dots for sensitive determination of cefixime after its preconcentration by magnetic graphene oxide.
New Journal of Chemistry, 41, (15), 7186-7194, (2017)
   

Eskandari H et al., MIP-capped terbium MOF-76 for the selective fluorometric detection of cefixime after its preconcentration with magnetic graphene oxide.
Sensors and Actuators B: Chemical, 275, 145-154, (2018)
   

Eskandari H et al., Mesoporous MIP-capped luminescent MOF as specific and sensitive analytical probe: application for chlorpyrifos.
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Eftekhari BS et al., Conductive chitosan/polyaniline hydrogel with cell-imprinted topography as a potential substrate for neural priming of adipose derived stem cells.
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Eslami MR et al., A dual usage smart sorbent/recognition element based on nanostructured conducting molecularly imprinted polypyrrole for simultaneous potential-induced nanoextraction/determination of ibuprofen in biomedical samples by quartz crystal microbalance sensor.
Sensors and Actuators B: Chemical, 220, 880-887, (2015)
   

Eslami MR et al., Nanostructured conducting molecularly imprinted polypyrrole based quartz crystal microbalance sensor for naproxen determination and its electrochemical impedance study.
RSC Advances, 6, (12), 9387-9395, (2016)
   

Eslami PA

Eskandari H et al., MIP-capped terbium MOF-76 for the selective fluorometric detection of cefixime after its preconcentration with magnetic graphene oxide.
Sensors and Actuators B: Chemical, 275, 145-154, (2018)
   

Esmaeili MA

Esmaeili MA et al., Molecularly imprinted poly [beta]-cyclodextrin polymer: Application in protein refolding.
Biochimica et Biophysica Acta (BBA) - General Subjects, 1770, (6), 943-950, (2007)
   

Esmaeilpour M

Javidi J et al., Synthesis, characterization and application of core-shell magnetic molecularly imprinted polymers for selective recognition of clozapine from human serum.
RSC Advances, 5, (89), 73268-73278, (2015)
   

Esmaily H

Bakhshizadeh M et al., Utilizing photosensitizing and radiosensitizing properties of TiO2-based mitoxantrone imprinted nanopolymer in fibrosarcoma and melanoma cells.
Photodiagnosis and Photodynamic Therapy, 25, 472-479, (2019)
   

Espenschied KG

Espenschied KG et al., Extraction and Quantification of Bisphenol A from Broth-Based Soup Matrices Using Molecularly Imprinted Solid Phase Extraction.
The Reporter, 33, (3), 24-25, (2015)
   

Espinosa A

Griffete N et al., Design of magnetic molecularly imprinted polymer nanoparticles for controlled release of doxorubicin under an alternative magnetic field in athermal conditions.
Nanoscale, 7, (45), 18891-18896, (2015)
   

Griffete N et al., Thermal Polymerization on the Surface of Iron Oxide Nanoparticles Mediated by Magnetic Hyperthermia: Implications for Multishell Grafting and Environmental Applications.
ACS Applied Nano Materials, 1, (2), 547-555, (2018)
   

Espinosa-Bosch M

Espinosa-Bosch M et al., Determination of paracetamol: Historical evolution.
Journal of Pharmaceutical and Biomedical Analysis, 42, (3), 291-321, (2006)
   

Espinosa-Garcia BM

Espinosa-Garcia BM et al., Molecularly Imprinted Chitosan-Genipin Hydrogels with Recognition Capacity toward o-Xylene.
Biomacromolecules, 8, (11), 3355-3364, (2007)
   

Espitia HJ

Ordoñez HC et al., Voltammetric analysis of acyclovir at glassy carbon/oppy/templated electrode.
Journal of Physics: Conference Series, 1119, Article012008-(2018)
   

Esposito F

Gallo P et al., Determination of BPA, BPB, BPF, BADGE and BFDGE in canned energy drinks by molecularly imprinted polymer cleaning up and UPLC with fluorescence detection.
Food Chemistry, 220, 406-412, (2017)
   

Esrafili A

Behbahani M et al., Application of a tailor-made polymer as a selective and sensitive colorimetric sensor for reliable detection of trace levels of uranyl ions in complex matrices.
RSC Advances, 5, (74), 59912-59920, (2015)
   

Essawy AA

Essawy AA, Silver imprinted zinc oxide nanoparticles: Green synthetic approach, characterization and efficient sunlight-induced photocatalytic water detoxification.
Journal of Cleaner Production, 183, 1011-1020, (2018)
   

Alrowaili ZA et al., Green fabrication of silver imprinted titania / silica nanospheres as robust visible light-induced photocatalytic wastewater purification.
Materials Chemistry and Physics, 241, Article122403-(2020)
   

Esselmann H

Urraca JL et al., Polymeric Complements to the Alzheimer's Disease Biomarker [beta]-Amyloid Isoforms A[beta]1-40 and A[beta]1-42 for Blood Serum Analysis under Denaturing Conditions.
Journal of the American Chemical Society, 133, (24), 9220-9223, (2011)
   

Essousi H

Essousi H et al., Electroanalytical application of molecular imprinted polyaniline matrix for dapsone determination in real pharmaceutical samples.
Journal of Electroanalytical Chemistry, 818, 131-139, (2018)
   

Essousi H et al., Ion-Imprinted Electrochemical Sensor Based on Copper Nanoparticles-Polyaniline Matrix for Nitrate Detection.
Journal of Sensors, 2019, Article4257125-(2019)
   

Essousi H et al., Molecularly Imprinted Electrochemical Sensor Based on Modified Reduced Graphene Oxide-gold Nanoparticles-polyaniline Nanocomposites Matrix for Dapsone Determination.
Electroanalysis, 31, (6), 1050-1060, (2019)
   

Esteban I

Vulfson EN et al., Book chapter, New imprinting strategies, 
In: Drug-development assay approaches including molecular imprinting and biomarkers, Reid E, Hill HM, Wilson ID (Eds.) Royal Society of Chemistry: Ch. A-6, 44-48, (1998)
   

Estenoz DA

Casis N et al., Molecularly imprinted hydrogels from colloidal crystals for the detection of progesterone.
Polymer International, 64, (6), 773-779, (2015)
   

Estevam IHS

Lins SS et al., On-line solid phase extraction system using an ion imprinted polymer based on dithizone chelating for selective preconcentration and determination of mercury(II) in natural waters by CV AFS.
Microchemical Journal, 150, Article104075-(2019)
   

Esteve-Turrillas FA

Armenta S et al., Highly selective solid-phase extraction sorbents for chloramphenicol determination in food and urine by ion mobility spectrometry.
Analytical and Bioanalytical Chemistry, 408, (29), 8559-8567, (2016)
   

Martinez-Sena T et al., Determination of non-steroidal anti-inflammatory drugs in water and urine using selective molecular imprinted polymer extraction and liquid chromatography.
Journal of Pharmaceutical and Biomedical Analysis, 131, 48-53, (2016)
   

Peñuela-Pinto O et al., Selective determination of clenbuterol residues in urine by molecular imprinted polymer-Ion mobility spectrometry.
Microchemical Journal, 134, 62-67, (2017)
   

Sorribes-Soriano A et al., Cocaine abuse determination by ion mobility spectrometry using molecular imprinting.
Journal of Chromatography A, 1481, 23-30, (2017)
   

Sorribes-Soriano A et al., Magnetic molecularly imprinted polymers for the selective determination of cocaine by ion mobility spectrometry.
Journal of Chromatography A, 1545, 22-31, (2018)
   

Sorribes-Soriano A et al., Trace analysis by ion mobility spectrometry: From conventional to smart sample preconcentration methods. A review.
Analytica Chimica Acta, 1026, 37-50, (2018)
   

Aria MM et al., Uptake and translocation monitoring of imidacloprid to chili and tomato plants by molecularly imprinting extraction - ion mobility spectrometry.
Microchemical Journal, 144, 195-202, (2019)
   

Sorribes-Soriano A et al., Development of a molecularly imprinted monolithic polymer disk for agitation-extraction of ecgonine methyl ester from environmental water.
Talanta, 199, 388-395, (2019)
   

Sorribes-Soriano A et al., Amphetamine-type stimulants analysis in oral fluid based on molecularly imprinting extraction.
Analytica Chimica Acta, 1052, 73-83, (2019)
   

Sorribes-Soriano A et al., Molecularly imprinted polymer-based device for field collection of oral fluid samples for cocaine identification.
Journal of Chromatography A, 1633, Article461629-(2020)
   

Sorribes-Soriano A et al., Tuning the selectivity of molecularly imprinted polymer extraction of arylcyclohexylamines: From class-selective to specific.
Analytica Chimica Acta, 1124, 94-103, (2020)
   

Esteves T

Esteves T et al., Molecularly imprinted polymer strategies for removal of a genotoxic impurity, 4-dimethylaminopyridine, from an active pharmaceutical ingredient post-reaction stream.
Separation and Purification Technology, 163, 206-214, (2016)
   

Esteves V

Silva CP et al., Processes for the elimination of estrogenic steroid hormones from water: A review.
Environmental Pollution, 165, (1), 38-58, (2012)
   

Esteves da Silva JCG

Algarra M et al., Current analytical strategies for C-reactive protein quantification in blood.
Clinica Chimica Acta, 415, 1-9, (2013)
   

Estevez MC

Salvador JP et al., A New Methodology for the Rational Design of Molecularly Imprinted Polymers.
Analytical Letters, 40, (7), 1294-1306, (2007)
   

Estrela P

Jolly P et al., Aptamer-MIP hybrid receptor for highly sensitive electrochemical detection of prostate specific antigen.
Biosensors and Bioelectronics, 75, 188-195, (2016)
   

Estève D

Binet C et al., First approach to the use of liquid crystal elastomers for chemical sensors.
Talanta, 69, (3), 757-762, (2006)
   

Etemadi M

Etemadi M et al., Selective adsorption of Cr(VI) ions from aqueous solutions using Cr6+-imprinted Pebax/chitosan/GO/APTES nanofibrous adsorbent.
International Journal of Biological Macromolecules, 95, 725-733, (2017)
   

Ethirajan A

Alenus J et al., Detection of L-nicotine with dissipation mode quartz crystal microbalance using molecular imprinted polymers.
physica status solidi (a), 209, (5), 905-910, (2012)
   

Peeters M et al., MIP-based biomimetic sensor for the electronic detection of serotonin in human blood plasma.
Sensors and Actuators B: Chemical, 171-172, 602-610, (2012)
   

Alenus J et al., Molecularly imprinted polymers as synthetic receptors for the QCM-D-based detection of l-nicotine in diluted saliva and urine samples.
Analytical and Bioanalytical Chemistry, 405, (20), 6479-6487, (2013)
   

Eersels K et al., Selective Identification of Macrophages and Cancer Cells Based on Thermal Transport through Surface-Imprinted Polymer Layers.
ACS Applied Materials & Interfaces, 5, (15), 7258-7267, (2013)
   

Kellens E et al., Improved Molecular Imprinting Based on Colloidal Particles Made from Miniemulsion: A Case Study on Testosterone and Its Structural Analogues.
Macromolecules, 49, (7), 2559-2567, (2016)
   

Kellens E et al., Micro-patterned molecularly imprinted polymer structures on functionalized diamond-coated substrates for testosterone detection.
Biosensors and Bioelectronics, 118, 58-65, (2018)
   

Etienne M

Yasmeen N et al., Molecularly imprinted polymer as a synthetic receptor mimic for capacitive impedimetric selective recognition of Escherichia coli K-12.
Analytica Chimica Acta, 1188, Article339177-(2021)
   

Etxebarria N

Ziarrusta H et al., Determination of fluoroquinolones in fish tissues, biological fluids, and environmental waters by liquid chromatography tandem mass spectrometry.
Analytical and Bioanalytical Chemistry, 409, (27), 6359-6370, (2017)
   

Eudes V

Lordel S et al., Development of imprinted materials for the selective extraction of nitroaromatic explosives.
Journal of Chromatography A, 1217, (43), 6674-6680, (2010)
   

Lordel S et al., Selective extraction of nitroaromatic explosives by using molecularly imprinted silica sorbents.
Analytical and Bioanalytical Chemistry, 399, (1), 449-458, (2011)
   

Lordel-Madeleine S et al., Identification of the nitroaromatic explosives in post-blast samples by online solid phase extraction using molecularly imprinted silica sorbent coupled with reversed-phase chromatography.
Analytical and Bioanalytical Chemistry, 405, (15), 5237-5247, (2013)
   

Euler AC

Arnold BR et al., Progress in the development of molecularly imprinted polymer sensors.
Johns Hopkins APL Technical Digest, 20, (2), 190-198, (1999)
   

Eusebi AL

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

Euterpio MA

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

Euzet P

Breton F et al., Integration of photosynthetic biosensor with molecularly imprinted polymer-based solid phase extraction cartridge.
Analytica Chimica Acta, 569, (1-2), 50-57, (2006)
   

Evans JJ

Murray LM et al., Bioimprinted polymer platforms for cell culture using soft lithography.
Journal of Nanobiotechnology, 12, Article No 60-(2014)
   

Mutreja I et al., Positive and negative bioimprinted polymeric substrates: new platforms for cell culture.
Biofabrication, 7, (2), ArticleNo025002-(2015)
   

Tan LH et al., The characteristics of Ishikawa endometrial cancer cells are modified by substrate topography with cell-like features and the polymer surface.
International Journal of Nanomedicine, 2015, (10), 4883-4895, (2015)
   

Evseeva TG

Men’shikova AYu et al., Monodisperse polymer particles with molecular imprints of naphthalene in the shell: Synthesis and adsorption properties.
Russian Journal of Applied Chemistry, 84, (9), 1567-1574, (2011)
   

Koshkin AV et al., Naphthalene vapor sorption by polymer nanoparticles with molecularly imprinted shells (Original Russian Text © A.V. Koshkin, V.A. Sazhnikov, A.Yu. Men'shikova, G.A. Pankova, T.G. Evseeva, M.V. Alfimov, 2012, published in Rossiiskie Nanotekhnologii, 2012, Vol. 7, Nos. 1–2.).
Nanotechnologies in Russia, 7, (1), 15-21, (2012)
   

Men’shikova AYu et al., Crosslinked monodisperse particles containing luminophore groups in shells for molecular recognition of lower alcohols (Original Russian Text © A.Yu. Men'shikova, N.N. Shevchenko, T.G. Evseeva, A.V. Koshkin, G.A. Pankova, B.M. Shabsel's, V.V. Faraonova, M.Ya. Goikhman, A.V. Yakimanskii, V.A. Sazhnikov, M.V. Alfimov, 2012, published in Russian in Vysokomolekulyarnye Soedineniya, Ser. B, 2012, Vol. 54, No. 1, pp. 93 - 101.).
Polymer Science Series B, 54, (1), 21-29, (2012)
   

Evtimova B

Dakova I et al., Solid phase selective separation and preconcentration of Cu(II) by Cu(II)-imprinted polymethacrylic microbeads.
Analytica Chimica Acta, 584, (1), 196-203, (2007)
   

Evtugyn G

Evtugyn G et al., Molecularly Imprinted Polymerized Methylene Green as a Platform for Electrochemical Sensing of Aptamer-Thrombin Interactions.
Electroanalysis, 21, (11), 1272-1277, (2009)
   

Evtyugin G

Budnikov G et al., Chemically modified electrodes with amperometric response in enantioselective analysis.
Journal of Analytical Chemistry, 63, (1), 2-12, (2008)
   

Ewen SL

Ewen SL et al., Book chapter, Molecularly Imprinted Polymers Using Anions as Templates, 
In: Recognition of Anions, Vilar R (Ed.) Springer: Berlin / Heidelberg, 207-248, (2008)
   

Exarhos GJ

Shin YS et al., Ordered Hierarchical Porous Materials: Towards Tunable Size- and Shape-Selective Microcavities in Nanoporous Channels.
Angewandte Chemie International Edition, 39, (15), 2702-2707, (2000)
   

Eynollahi S

Riahi S et al., Computational Approach to Investigation of Template/Monomer Complex in Imprinted Polymers; Dinitrobenzene Sensor.
International Journal of Electrochemical Science, 5, (4), 509-516, (2010)
   

Ezhova NM

Ezhova NM et al., Sorption of lysine by molecularly imprinted carboxyl sorbents.
Applied Biochemistry and Microbiology, 45, (2), 221-225, (2009)
   

Ezhova NM et al., Molecularly imprinted hydrophilic polymer sorbents for selective sorption of erythromycin.
Applied Biochemistry and Microbiology, 47, (6), 635-639, (2011)
   

Garkushina IS et al., Molecularly imprinted polymeric sorbents for selective sorption of erythromycin.
Russian Journal of Applied Chemistry, 87, (8), 1126-1132, (2014)
   

Leshchinskaya AP et al., Synthesis and sorption properties of polymeric sorbents molecularly imprinted with uric acid.
Russian Journal of Applied Chemistry, 88, (5), 820-825, (2015)
   

Polyakova IV et al., Polymer sorbent with the properties of an artificial cholesterol receptor.
Russian Journal of Physical Chemistry A, 89, (2), 288-290, (2015)
   

Leshchinskaya AP et al., Synthesis and characterization of 2-hydroxyethyl methacrylate-ethylene glycol dimethacrylate polymeric granules intended for selective removal of uric acid.
Reactive and Functional Polymers, 102, 101-109, (2016)
   

Polyakova IV et al., Synthesis and properties of polymeric and organo-inorganic amphiphilic sorbents molecularly imprinted with cholesterol.
Russian Journal of Applied Chemistry, 88, (10), 1617-1626, (2016)
   

Ezz MK

Hegazy EA et al., Radiation Synthesis and Characterization of Cholesterol Molecularly Imprinted Polymer of Crosslinked Hydroxyethyl Methacrylate.
International Journal of Science and Research (IJSR), 5, (1), ArticleID:NOV152733-(2016)
   

Ezzati N

Asadi E et al., Synthesis, characterization and in vivo drug delivery study of a biodegradable nano-structured molecularly imprinted polymer based on cross-linker of fructose.
Polymer, 97, 226-237, (2016)
   

Asadi E et al., In vitro/in vivo study of novel anti-cancer, biodegradable cross-linked tannic acid for fabrication of 5-fluorouracil-targeting drug delivery nano-device based on a molecular imprinted polymer.
RSC Advances, 6, (43), 37308-37318, (2016)
   

Ezzatzadeh E

Jalilian R et al., A novel self-assembled gold nanoparticles-molecularly imprinted modified carbon ionic liquid electrode with high sensitivity and selectivity for the rapid determination of bisphenol A leached from plastic containers.
Journal of Environmental Chemical Engineering, 9, (4), Article105513-(2021)
   



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