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F

Yu Y et al., Polycyclic aromatic hydrocarbons in edible oils: analysis by molecularly imprinted solid-phase extraction with HPLC-FLD.
Agro FOOD Industry Hi Tech, 25, (3), 19-22, (2014)
   

F-

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

F-

Nikitina VN et al., Molecular imprinting of boronate functionalized polyaniline for enzyme-free selective detection of saccharides and hydroxy acids.
Sensors and Actuators B: Chemical, 246, 428-433, (2017)
   

FA

Bi W et al., Separation of phenolic acids from natural plant extracts using molecularly imprinted anion-exchange polymer confined ionic liquids.
Journal of Chromatography A, 1232, (1), 37-42, (2012)
   

FA

Karimian N et al., On/off-switchable electrochemical folic acid sensor based on molecularly imprinted polymer electrode.
Electrochemistry Communications, 36, 92-95, (2013)
   

FA

Appell M et al., Determination of fusaric acid in maize using molecularly imprinted SPE clean-up.
Journal of Separation Science, 37, (3), 281-286, (2014)
   

FA

Pereira AV et al., Do voltammetry electrodes modified with MIPs really work? The role of large molecules: folic acid as a probe.
Analytical Methods, 6, (17), 6658-6667, (2014)
   

FA

Benito-Peńa E et al., Molecularly imprinted hydrogels as functional active packaging materials.
Food Chemistry, 190, 487-494, (2016)
   

FA

Gao BJ et al., Designing and preparation of ferulic acid surface-imprinted material and its molecular recognition characteristics.
RSC Advances, 6, (5), 3986-3996, (2016)
   

FA

Hussain S et al., A novel core@shell magnetic molecular imprinted nanoparticles for selective determination of folic acid in different food samples.
Reactive and Functional Polymers, 106, 51-56, (2016)
   

FA

Wang C et al., DNA based signal amplified molecularly imprinted polymer electrochemical sensor for multiplex detection.
RSC Advances, 6, (55), 49597-49603, (2016)
   

FA

Yang Q et al., Design and Preparation of Ferulic Acid Surface-Imprinted Material and Its Molecular Recognition Characteristic.
Polymer Materials Science and Engineering, 32, (2), 173-178+185, (2016)
   

FA

Yang YQ et al., One-pot synthesis of quantum dot-labeled hydrophilic molecularly imprinted polymer nanoparticles for direct optosensing of folic acid in real, undiluted biological samples.
Biosensors and Bioelectronics, 86, 580-587, (2016)
   

FA

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)
   

FA

Villar-Navarro M et al., Easy, fast and environmental friendly method for the simultaneous extraction of the 16 EPA PAHs using magnetic molecular imprinted polymers (mag-MIPs).
Journal of Chromatography B, 1044-1045, 63-69, (2017)
   

FA

Kuceki M et al., Selective and sensitive voltammetric determination of folic acid using graphite/restricted access molecularly imprinted poly(methacrylic acid)/SiO2 composite.
Journal of Electroanalytical Chemistry, 818, 223-230, (2018)
   

FA

Panjan P et al., Development of a folic acid molecularly imprinted polymer and its evaluation as a sorbent for dispersive solid-phase extraction by liquid chromatography coupled to mass spectrometry.
Journal of Chromatography A, 1576, 26-33, (2018)
   

FA

Güney S, Electrochemical synthesis of molecularly imprinted poly(p-aminobenzene sulphonic acid) on carbon nanodots coated pencil graphite electrode for selective determination of folic acid.
Journal of Electroanalytical Chemistry, 854, Article113518-(2019)
   

FA

Hussain S et al., Facile preparation of molybdenum carbide (Mo2C) nanoparticles and its effective utilization in electrochemical sensing of folic acid via imprinting.
Biosensors and Bioelectronics, 140, Article111330-(2019)
   

FA

Wang Y et al., A Novel Fluorescence and SPE Adsorption Nanomaterials of Molecularly Imprinted Polymers Based on Quantum Dot-Grafted Covalent Organic Frameworks for the High Selectivity and Sensitivity Detection of Ferulic Acid.
Nanomaterials, 9, (2), ArticleNo305-(2019)
   

FA

Wang ZH et al., Molecularly Imprinted Polymers-Coated CdTe Quantum Dots for Highly Sensitive and Selective Fluorescent Determination of Ferulic Acid.
Journal of Analytical Methods in Chemistry, 2019, Article1505878-(2019)
   

FA

Zengin A et al., Preparation of molecularly imprinted PDMS elastomer for selective detection of folic acid in orange juice.
Applied Surface Science, 471, 168-175, (2019)
   

FA

Alipanahpour Dil E et al., Magnetic dual-template molecularly imprinted polymer based on syringe-to-syringe magnetic solid-phase microextraction for selective enrichment of p-Coumaric acid and ferulic acid from pomegranate, grape, and orange samples.
Food Chemistry, 325, Article126902-(2020)
   

FA

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

FA

Fu LL et al., Magnetic carbon nanotubes-molecularly imprinted polymer coupled with HPLC for selective enrichment and determination of ferulic acid in traditional Chinese medicine and biological samples.
Journal of Chromatography B, 1180, Article122870-(2021)
   

FA

Lin YL et al., Molecularly Imprinted Photonic Crystals Based on Fusaric Acid for the Detection of Banana Fusarium Wilt.
ACS Applied Polymer Materials, 3, (11), 5818-5825, (2021)
   

FAA

Hedborg E et al., Some studies of molecularly-imprinted polymer membranes in combination with field-effect devices.
Sensors and Actuators A-Physical, 37-8, 796-799, (1993)
   

Fab fragments

Ertürk G et al., Fab fragments imprinted SPR biosensor for real-time human immunoglobulin G detection.
Biosensors and Bioelectronics, 28, (1), 97-104, (2011)
   

Fab fragments

Asliyuce S et al., Immunoglobulin G recognition with Fab fragments imprinted monolithic cryogels: Evaluation of the effects of metal-ion assisted-coordination of template molecule.
Reactive and Functional Polymers, 73, (6), 813-820, (2013)
   

F-actin

Ikawa T et al., Molecular Scale Imaging of F-Actin Assemblies Immobilized on a Photopolymer Surface.
Physical Review Letters, 98, (1), Art. No. 018101-(2007)
   

FAD

Chen XW et al., A graphene oxide surface-molecularly imprinted polymer as a dispersive solid-phase extraction adsorbent for the determination of cefadroxil in water samples.
RSC Advances, 7, (54), 34077-34085, (2017)
   

2-FAL

Pesavento M et al., Towards the development of cascaded surface plasmon resonance POF sensors exploiting gold films and synthetic recognition elements for detection of contaminants in transformer oil.
Sensing and Bio-Sensing Research, 13, 128-135, (2017)
   

2-FAL

Book chapter, Cennamo Net al., Chemical Sensors Based on Surface Plasmon Resonance in a Plastic Optical Fiber for Multianalyte Detection in Oil-Filled Power Transformer, 
In: Sensors: Proceedings of the Third National Conference on Sensors, February 23-25, 2016, Rome, Italy, Andň B, Baldini F, Di Natale C, Marrazza G, Siciliano P (Eds.) Springer International Publishing: Cham, 128-134, (2018)
   

2-FAL

Proceeding, Cennamo N et al, A novel chemical optical sensor based on molecularly imprinted polymer, optical fibers and inkjet printing technology, 
ArticleNo8409619, (2018)
   

2-FAL

Nezami MM et al., An MIP-Based Novel Capacitive Sensor to Detect 2-FAL Concentration in Transformer Oil.
IEEE Sensors Journal, 18, (19), 7924-7931, (2018)
   

2-FAL

Zeni L et al., Slab plasmonic platforms combined with Plastic Optical Fibers and Molecularly Imprinted Polymers for chemical sensing.
Optics & Laser Technology, 107, 484-490, (2018)
   

2-FAL

Cennamo N et al., A Novel Sensing Methodology to Detect Furfural in Water, Exploiting MIPs, and Inkjet-Printed Optical Waveguides.
IEEE Transactions on Instrumentation and Measurement, 68, (5), 1582-1589, (2019)
   

2-FAL

Pesavento M et al., Sensing by Molecularly Imprinted Polymer: Evaluation of the Binding Properties with Different Techniques.
Sensors, 19, (6), ArticleNo1344-(2019)
   

famciclovir

El Gohary NA et al., Synthesis and application of a molecularly imprinted polymer for the voltammetric determination of famciclovir.
Biosensors and Bioelectronics, 65, 108-114, (2015)
   

Fancy red

Long CY et al., Synthesis and characterization of a novel molecularly imprinted polymer for simultaneous extraction and determination of water-soluble and fat-soluble synthetic colorants in chilli products by solid phase extraction and high performance liquid chromatography.
Journal of Chromatography A, 1216, (47), 8379-8385, (2009)
   

farrerol

Ma XB et al., Preparation and characterization of dummy molecularly imprinted polymers for separation and determination of farrerol from Rhododendron aganniphum using HPLC.
Green Chemistry Letters and Reviews, 11, (4), 513-522, (2018)
   

farrerol

Ma XB et al., Magnetic molecularly imprinted polymers doped with graphene oxide for the selective recognition and extraction of four flavonoids from Rhododendron species.
Journal of Chromatography A, 1598, 39-48, (2019)
   

fatty acid

Kao LN et al., Synthesis of molecularly imprinted polyimide Kapton for fatty acids: quantum-chemical modelling.
Sorption and Chromatographic Processes, 18, (3), 415-422, (2018)
   

fatty acids

Cao NL et al., Modeling of palmitic and oleic acids imprinted polymers based on polyamidoacid.
Sorption and Chromatographic Processes, 15, (4), 421-428, (2015)
   

FB1

Zhang W et al., Surface-enhanced molecularly imprinted electrochemiluminescence sensor based on Ru@SiO2 for ultrasensitive detection of fumonisin B1.
Biosensors and Bioelectronics, 96, 55-61, (2017)
   

FB

Liu XL et al., Green Synthesis of Carbon Nanotubes-Reinforced Molecularly Imprinted Polymer Composites for Drug Delivery of Fenbufen.
AAPS PharmSciTech, 19, (8), 3895-3906, (2018)
   

FB1

Munawar H et al., Molecularly imprinted polymer nanoparticle-based assay (MINA): application for fumonisin B1 determination.
Analyst, 143, (14), 3481-3488, (2018)
   

FB1

Mao LB et al., Molecularly imprinted photoelectrochemical sensor for fumonisin B1 based on GO-CdS heterojunction.
Biosensors and Bioelectronics, 127, 57-63, (2019)
   

FB1

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

fbp A

Gupta N et al., Epitope imprinting of iron binding protein of Neisseria meningitidis bacteria through multiple monomers imprinting approach.
Journal of Molecular Recognition, 31, (7), ArticleNoe2709-(2018)
   

FBT

Bustamante-Rangel M et al., Evaluation of the selectivity of molecularly imprinted polymer cartridges for nitroimidazoles. Application to the simultaneous extraction of nitroimidazoles and benzimidazoles from samples of animal origin.
Microchemical Journal, 172, Article107000-(2022)
   

FBZ

Bustamante-Rangel M et al., Evaluation of the selectivity of molecularly imprinted polymer cartridges for nitroimidazoles. Application to the simultaneous extraction of nitroimidazoles and benzimidazoles from samples of animal origin.
Microchemical Journal, 172, Article107000-(2022)
   

FBZ-SO2

Bustamante-Rangel M et al., Evaluation of the selectivity of molecularly imprinted polymer cartridges for nitroimidazoles. Application to the simultaneous extraction of nitroimidazoles and benzimidazoles from samples of animal origin.
Microchemical Journal, 172, Article107000-(2022)
   

Fc domain of human IgG

Moczko E et al., Epitope approach in molecular imprinting of antibodies.
Journal of Chromatography B, 1124, 1-6, (2019)
   

Fc fragment

Bereli N et al., Oriented immobilized anti-hIgG via Fc fragment-imprinted PHEMA cryogel for IgG purification.
Biomedical Chromatography, 27, (5), 599-607, (2013)
   

Fc-MeOH

Ginzburg-Turgeman R et al., Nanometric thin polymeric films based on molecularly imprinted technology: Towards electrochemical sensing applications.
Physical Chemistry Chemical Physics, 12, (36), 11041-11050, (2010)
   

FCV

El Gohary NA et al., Synthesis and application of a molecularly imprinted polymer for the voltammetric determination of famciclovir.
Biosensors and Bioelectronics, 65, 108-114, (2015)
   

Fe3+

Nishide H et al., Selective adsorption of metal ions on crosslinked poly(vinylpyridine) resin prepared with a metal ion as a template.
Chemistry Letters, 5, (2), 169-174, (1976)
   

Fe3+

Özkara S et al., An Ion-Imprinted Monolith for in Vitro Removal of Iron out of Human Plasma with Beta Thalassemia.
Industrial & Engineering Chemistry Research, 47, (20), 7849-7856, (2008)
   

FE

Han WJ et al., A fluorescent molecularly imprinted polymer sensor synthesized by atom transfer radical precipitation polymerization for determination of ultra trace fenvalerate in the environment.
RSC Advances, 6, (84), 81346-81353, (2016)
   

febantel

Bustamante-Rangel M et al., Evaluation of the selectivity of molecularly imprinted polymer cartridges for nitroimidazoles. Application to the simultaneous extraction of nitroimidazoles and benzimidazoles from samples of animal origin.
Microchemical Journal, 172, Article107000-(2022)
   

Fe(II)

Glass AC et al., Synthesis and catalytic activity of an iron(II) molecularly imprinted polymer.
Abstracts of Papers of the American Chemical Society, 231, (INOR), 145-145, (2006)
   

Fe(II)

An FQ et al., Removal of Fe(II) from Ce(III) and Pr(III) rare earth solution using surface imprinted polymer.
Desalination and Water Treatment, 51, (28-30), 5566-5573, (2013)
   

Fe(II)

Wang WS et al., Effective removal of Fe(II) impurity from rare earth solution using surface imprinted polymer.
Chemical Engineering Research and Design, 91, (12), 2759-2764, (2013)
   

Fe(II)

Kumar IA et al., Development of multivalent metal ions imprinted chitosan biocomposites for phosphate sorption.
International Journal of Biological Macromolecules, 104, (Part B), 1539-1547, (2017)
   

Fe(II)

Mitreva M et al., Iron(II) ion imprinted polymer for Fe(II)/Fe(III) speciation in wine.
Microchemical Journal, 132, 238-244, (2017)
   

Fe(II)

Kang YG et al., Activation of persulfate by a novel Fe(II)-immobilized chitosan/alginate composite for bisphenol A degradation.
Chemical Engineering Journal, 353, 736-745, (2018)
   

Fe(III)

Ohga K et al., Adsorption of Cu2+ or Hg2+ ion on resins prepared by cross-linking metal-complexed chitosans.
Bulletin of the Chemical Society of Japan, 60, (1), 444-446, (1987)
   

Fe(III)

Owens GS et al., Molecularly imprinted ion-exchange resin for Fe3+.
Separation Science and Technology, 40, (11), 2205-2211, (2005)
   

Fe(III)

Yavuz H et al., Iron removal from human plasma based on molecular recognition using imprinted beads.
Materials Science and Engineering: C, 25, (4), 521-528, (2005)
   

Fe(III)

Saatçilar Ö et al., Binding behavior of Fe3+ ions on ion-imprinted polymeric beads for analytical applications.
Journal of Applied Polymer Science, 101, (5), 3520-3528, (2006)
   

Fe(III)

Yavuz H et al., Molecular recognition based iron removal from human plasma with imprinted membranes.
International Journal of Artificial Organs, 29, (9), 900-911, (2006)
   

Fe(III)

Chang XJ et al., Solid-phase extraction of iron(III) with an ion-imprinted functionalized silica gel sorbent prepared by a surface imprinting technique.
Talanta, 71, (1), 38-43, (2007)
   

Fe(III)

Karabörk M et al., Preconcentration of Fe(III) Using Fe(III)-Ion Imprinted Polymeric Traps and Its Analytical Performance for FAAS.
Hacettepe Journal of Biology and Chemistry, 35, (2), 135-142, (2007)
   

Fe(III)

Özkütük EB et al., Fe3+-Imprinted Polymeric Systems.
Hacettepe Journal of Biology and Chemistry, 35, (3), 195-202, (2007)
   

Fe(III)

Qi JY et al., Preparation and property of microspheric Fe(III) imprinted polymer.
Material Science and Technology, 15, (6), 767-773, (2007)
   

Fe(III)

Qi JY et al., Preparation and property of microspheric Fe(III) imprinted polymer.
Materials Science and Technology, 15, (6), 767-769,773, (2007)
   

Fe(III)

Özkara S et al., An Ion-Imprinted Monolith for in Vitro Removal of Iron out of Human Plasma with Beta Thalassemia.
Industrial & Engineering Chemistry Research, 47, (20), 7849-7856, (2008)
   

Fe(III)

Utku S et al., Ion-Imprinted Thermosensitive Polymers for Fe3+ Removal from Human Plasma.
Hacettepe Journal of Biology and Chemistry, 36, (4), 291-304, (2008)
   

Fe(III)

Dey RK et al., Removal of Toxic/Heavy Metal Ions Using Ion-Imprinted Aminofunctionalized Silica Gel.
Separation Science and Technology, 44, (8), 1829-1850, (2009)
   

Fe(III)

Khajeh M et al., Imprinted polymer particles for iron uptake: Synthesis, characterization and analytical applications.
Polymer Science Series B, 51, (9), 344-351, (2009)
   

Fe(III)

Asliyüce S et al., Ion-imprinted supermacroporous cryogel, for in vitro removal of iron out of human plasma with beta thalassemia.
Separation and Purification Technology, 73, (2), 243-249, (2010)
   

Fe(III)

Karabörk M et al., Selective Preconcentration of Fe3+ Using Ion-Imprinted Thermosensitive Particles.
Hacettepe Journal of Biology and Chemistry, 38, (1), 27-39, (2010)
   

Fe(III)

Singh DK et al., Synthesis and characterization of Fe(III)-ion imprinted polymer for recovery of Fe(III) from water samples.
Journal of Scientific and Industrial Research, 69, (10), 767-772, (2010)
   

Fe(III)

Özkara S et al., Ion-imprinted PHEMA based monolith for the removal of Fe3+ ions from aqueous solutions.
Journal of Applied Polymer Science, 120, (3), 1829-1836, (2011)
   

Fe(III)

Dai J et al., Adsorption Behavior of Fe(II) and Fe(III) Ions on Thiourea Cross-Linked Chitosan with Fe(III) as Template.
Molecules, 17, (4), 4388-4399, (2012)
   

Fe(III)

Ergün B et al., Ion imprinted beads embedded cryogels for in vitro removal of iron from β-thalassemic human plasma.
Journal of Applied Polymer Science, 125, (1), 254-262, (2012)
   

Fe(III)

Fan HT et al., Selective Removal of Iron from Aqueous Solution using Ion Imprinted Cyanato-Functionalized Silica Gel Sorbents.
Separation Science and Technology, 47, (3), 507-512, (2012)
   

Fe(III)

Fan HT et al., Selective removal of iron from aqueous solution using ion imprinted thiocyanato-functionalized silica gel sorbents.
Korean Journal of Chemical Engineering, 29, (6), 798-803, (2012)
   

Fe(III)

Xie FZ et al., Selective adsorption and separation of trace dissolved Fe(III) from natural water samples by double template imprinted sorbent with chelating diamines.
Chemical Engineering Journal, 183, (1), 372-380, (2012)
   

Fe(III)

Yalinca Z et al., Evaluation of chitosan tripolyphosphate gel beads as bioadsorbents for iron in aqueous solution and in human blood in vitro.
Journal of Applied Polymer Science, 125, (2), 1493-1505, (2012)
   

Fe(III)

Gao X et al., Photocatalytic properties of Fe3+@ dual conducting polymers /TiO2/HNTs composite by ion imprinting technology.
Fresenius Environmental Bulletin, 22, (8A), 2385-2392, (2013)
   

Fe(III)

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

Fe(III)

Djunaidi MC et al., Synthesis of Fe ionic-imprinted polyeugenol using polyethylene glycol diglycidilether as cross-linking agent for sorption of Fe(III).
Indonesian Journal of Chemistry, 15, (3), 305-314, (2015)
   

Fe(III)

Djunaidi MC et al., Selective Transport of Fe(III) Using Polyeugenol as Functional Polymer with Ionic Imprinted Polymer Membrane Method.
Asian Journal of Chemistry, 27, (12), 4553-4562, (2015)
   

Fe(III)

Proceeding, Djunaidi MC et al, Selective transport of Fe(III) using ionic imprinted polymer (IIP) membrane particle, 
In: AIP Conference Proceedings, ArticleNo060001, (2015)
   

Fe(III)

Gao BJ et al., Preparation of Fe(III) ion surface-imprinted material for removing Fe(III) impurity from lanthanide ion solutions.
Journal of Industrial and Engineering Chemistry, 24, 351-358, (2015)
   

Fe(III)

Çimen D et al., Removal of iron by chelation with molecularly imprinted supermacroporous cryogel.
Artificial Cells, Nanomedicine, and Biotechnology, 44, (4), 1158-1166, (2016)
   

Fe(III)

Roushani M et al., Synthesis and application of ion-imprinted polymer for extraction and pre-concentration of iron ions in environmental water and food samples.
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 153, 637-644, (2016)
   

Fe(III)

Djunaidi M et al., Role of Number of Imprinted Cavity on the Selectivity of the Imprinted Polymer.
Advanced Science Letters 23 6506-6512 (2017)
   

Fe(III)

Djunaidi MC et al., The Influence of type of Functional Groups on the Adsorption Selectivity of Ionic Imprinted Polymer (IIP) Fe.
Oriental Journal of Chemistry, 33, (6), 2992-2997, (2017)
   

Fe(III)

He HX et al., Synthesis and characterization of a surface imprinting silica gel polymer functionalized with phosphonic acid groups for selective adsorption of Fe(III) from aqueous solution.
Journal of Applied Polymer Science, 134, (36), ArticleNo45165-(2017)
   

Fe(III)

Mitreva M et al., Iron(II) ion imprinted polymer for Fe(II)/Fe(III) speciation in wine.
Microchemical Journal, 132, 238-244, (2017)
   

Fe(III)

Ara B et al., Preparation of microspheric Fe(III)-ion imprinted polymer for selective solid phase extraction.
Applied Water Science, 8, (1), ArticleNo41-(2018)
   

Fe(III)

Djunaidi MC et al., The Impact of Template Types on Polyeugenol to the Adsorption Selectivity of Ionic Imprinted Polymer (IIP) Fe Metal Ion.
IOP Conference Series: Materials Science and Engineering, 349, (1), ArticleNo012034-(2018)
   

Fe(III)

Hu C et al., Preparation and adsorption properties of IIP-PMAA/SiO2 iron ion imprinted material.
Journal of Functional Materials, 49, (3), 3087-3091, (2018)
   

Fe(III)

Ying RJ et al., Ion imprinted dual reference ratiometric fluorescence probe for respective and simultaneous detection of Fe3+ and Cu2+.
New Journal of Chemistry, 43, (16), 6404-6410, (2019)
   

Fe(III)

Zhu GJ et al., A novel ion-imprinted polymer for selective removal of trace Fe(III) from Cr(III)-containing solutions.
Hydrometallurgy, 186, 105-114, (2019)
   

felodipine

Deng QL et al., Preparation and evaluation of molecularly imprinted monolithic column for felodipine in micro-liquid chromatography.
Chinese Chemical Letters, 16, (7), 955-958, (2005)
   

felodipine

Deng QL et al., Molecularly imprinted polymers as tools for the screening of felodipine from dihydropyridine calcium antagonists by pressurized capillary electrochromatography.
Analytical and Bioanalytical Chemistry, 382, (1), 51-58, (2005)
   

felopidine

Pu JZ et al., Preparation and Selective Adsorption Study on the Molecular Imprinted Polymeric Microspheres of Felodipine.
Journal of Anhui Agricultural Sciences, 37, (24), 11369-11371,11387, (2009)
   

felopidine

Pu JZ et al., Preparation and Recognition of Felodipine molecularly imprinted polymer.
Journal of Kaili University, 27, (3), 37-39, (2009)
   

FEN

Wang LQ et al., Matrix Effects in Analysis of β-Agonists with LC-MS/MS: Influence of Analyte Concentration, Sample Source, and SPE Type.
Journal of Agricultural and Food Chemistry, 60, (25), 6359-6363, (2012)
   

FEN

Nezhadali A et al., A Molecularly Imprinted Polymer for the Selective Extraction and Determination of Fenvalerate from Food Samples Using High-Performance Liquid Chromatography.
Food Analytical Methods, 8, (5), 1225-1237, (2015)
   

FEN

Zhao YN et al., Dummy-surface molecularly imprinted polymers based on magnetic graphene oxide for selective extraction and quantification of pyrethroids pesticides in fruit juices.
Microchemical Journal, 159, Article105411-(2020)
   

fenaminosulf

Li SH et al., Selective detection of fenaminosulf via a molecularly imprinted fluorescence switch and silver nano-film amplification.
Biosensors and Bioelectronics, 71, 342-347, (2015)
   

fenamiphos

He J et al., Novel restricted access materials combined to molecularly imprinted polymers for selective solid-phase extraction of organophosphorus pesticides from honey.
Food Chemistry, 187, 331-337, (2015)
   

fenarimol

Khan S et al., Selective solid-phase extraction using molecularly imprinted polymer as a sorbent for the analysis of fenarimol in food samples.
Food Chemistry, 199, 870-875, (2016)
   

fenbendazole

Guzmán-Vázquez de Prada A et al., Molecularly imprinted polymer solid-phase extraction coupled to square wave voltammetry at carbon fibre microelectrodes for the determination of fenbendazole in beef liver.
Analytical and Bioanalytical Chemistry, 388, (1), 227-234, (2007)
   

fenbendazole

Cacho C et al., Molecularly imprinted polymers: An analytical tool for the determination of benzimidazole compounds in water samples.
Talanta, 78, (3), 1029-1035, (2009)
   

fenbendazole

Bustamante-Rangel M et al., Evaluation of the selectivity of molecularly imprinted polymer cartridges for nitroimidazoles. Application to the simultaneous extraction of nitroimidazoles and benzimidazoles from samples of animal origin.
Microchemical Journal, 172, Article107000-(2022)
   

fenbendazole-sulfone

Bustamante-Rangel M et al., Evaluation of the selectivity of molecularly imprinted polymer cartridges for nitroimidazoles. Application to the simultaneous extraction of nitroimidazoles and benzimidazoles from samples of animal origin.
Microchemical Journal, 172, Article107000-(2022)
   

fenbufen

Singh M et al., Selective recognition of fenbufen by surface-imprinted silica with iniferter technique.
Journal of Porous Materials, 21, (5), 677-684, (2014)
   

fenbufen

Liu XL et al., Green Synthesis of Carbon Nanotubes-Reinforced Molecularly Imprinted Polymer Composites for Drug Delivery of Fenbufen.
AAPS PharmSciTech, 19, (8), 3895-3906, (2018)
   

fenfluramine

Yu JH et al., Quantification of fenfluramine with a molecularly imprinted chemiluminescence sensor and sulfonophenylazo rhodanine.
Journal of Separation Science, 32, (12), 2170-2179, (2009)
   

fenfluramine

Yu JH et al., Flow Injection Chemiluminescence Sensor with Novel Rhodanine Ramification for Determination of Fenfluramine Based on Molecularly Imprinted Polymer.
Analytical Letters, 42, (5), 746-757, (2009)
   

fenitoin

Anon, Molecularly imprinted polymers: Optimization of their preparation by combinatorial methods and applications in non-linear chromatography and binding assays.
Magyar Kemiai Folyoirat, Kemiai Kozlemenyek, 111, (3), 110-113, (2005)
   

fenitrothion

Pereira LA et al., Molecularly imprinted solid-phase extraction for the determination of fenitrothion in tomatoes.
Analytical and Bioanalytical Chemistry, 393, (3), 1063-1072, (2009)
   

fenitrothion

de Barros LA et al., A selective molecularly imprinted polymer-solid phase extraction for the determination of fenitrothion in tomatoes.
Analytical and Bioanalytical Chemistry, 397, (3), 1355-1361, (2010)
   

fenitrothion

Pellicer C et al., Using a portable device based on a screen-printed sensor modified with a molecularly imprinted polymer for the determination of the insecticide fenitrothion in forest samples.
Analytical Methods, 2, (9), 1280-1285, (2010)
   

fenitrothion

de Barros LA et al., A Novel Computational Approach for Development of Highly Selective Fenitrothion Imprinted Polymer: Theoretical Predictions and Experimental Validations.
Journal of the Brazilian Chemical Society, 25, (4), 619-628, (2014)
   

fenitrothion

Zhao LJ et al., Synthesis of water-compatible surface-imprinted polymer via click chemistry and RAFT precipitation polymerization for highly selective and sensitive electrochemical assay of fenitrothion.
Biosensors and Bioelectronics, 62, 19-24, (2014)
   

fenitrothion

Bazmandegan-Shamili A et al., MultiSimplex optimization of the dispersive solid-phase microextraction and determination of fenitrothion by magnetic molecularly imprinted polymer and high-performance liquid chromatography.
Journal of the Iranian Chemical Society, 15, (5), 1181-1189, (2018)
   

fenitrothion

Liu LX et al., Magnetic solid phase extraction sorbents using methyl-parathion and quinalphos dual-template imprinted polymers coupled with GC-MS for class-selective extraction of twelve organophosphorus pesticides.
Microchimica Acta, 187, (9), Article503-(2020)
   

fenobucarb

Qi PP et al., Computer-assisted design and synthesis of molecularly imprinted polymers for the simultaneous determination of six carbamate pesticides from environmental water.
Journal of Separation Science, 37, (20), 2955-2965, (2014)
   

fenoprofen

Gilart N et al., Determination of pharmaceuticals in wastewaters using solid-phase extraction-liquid chromatography-tandem mass spectrometry.
Journal of Separation Science, 35, (7), 875-882, (2012)
   

fenoprofen

Gilart N et al., A rapid determination of acidic pharmaceuticals in environmental waters by molecularly imprinted solid-phase extraction coupled to tandem mass spectrometry without chromatography.
Talanta, 110, 196-201, (2013)
   

fenoprofen

Mbhele ZE et al., Synthesis of a molecularly imprinted polymer and its application in selective extraction of fenoprofen from wastewater.
Environmental Science and Pollution Research, 25, (36), 36724-36735, (2018)
   

fenoterol

Hu YL et al., Investigation of ractopamine-imprinted polymer for dispersive solid-phase extraction of trace β-agonists in pig tissues.
Journal of Separation Science, 33, (13), 2017-2025, (2010)
   

fenoterol

Xu ZG et al., Investigation of ractopamine molecularly imprinted stir bar sorptive extraction and its application for trace analysis of β2-agonists in complex samples.
Journal of Chromatography A, 1217, (22), 3612-3618, (2010)
   

fenoterol

Wang LQ et al., Matrix Effects in Analysis of β-Agonists with LC-MS/MS: Influence of Analyte Concentration, Sample Source, and SPE Type.
Journal of Agricultural and Food Chemistry, 60, (25), 6359-6363, (2012)
   

Fenoterol

Xu W et al., Electrochemical sensor based on a carbon nanotube-modified imprinted sol-gel for selective and sensitive determination of β2-agonists.
Microchimica Acta, 180, (11-12), 1005-1011, (2013)
   

fenoterol

Lei RL et al., A Novel Electrochemical Sensor for β2-Agonists with High Sensitivity and Selectivity Based on Surface Molecularly Imprinted Sol-gel Doped with Antimony-Doped Tin Oxide.
Electroanalysis, 26, (5), 1004-1012, (2014)
   

fenoxycarb

Atayat A et al., Response surface methodology approach for the preparation of a molecularly imprinted polymer for solid-phase extraction of fenoxycarb pesticide in mussels.
Journal of Separation Science, 42, (18), 3023-3032, (2019)
   

FENP

Zhao YN et al., Dummy-surface molecularly imprinted polymers based on magnetic graphene oxide for selective extraction and quantification of pyrethroids pesticides in fruit juices.
Microchemical Journal, 159, Article105411-(2020)
   

fenpropathrin

Zhao PN et al., One novel chemiluminescence sensor for determination of fenpropathrin based on molecularly imprinted porous hollow microspheres.
Sensors and Actuators B: Chemical, 162, (1), 166-172, (2012)
   

fenpropathrin

Zhang M et al., Application of pseudo-template molecularly imprinted polymers by atom transfer radical polymerization to the solid-phase extraction of pyrethroids.
Talanta, 178, 1011-1016, (2018)
   

fenpropathrin

Zhao YN et al., Dummy-surface molecularly imprinted polymers based on magnetic graphene oxide for selective extraction and quantification of pyrethroids pesticides in fruit juices.
Microchemical Journal, 159, Article105411-(2020)
   

fentanyl

Bagheri H et al., Application of sol-gel based molecularly imprinted xerogel for on-line capillary microextraction of fentanyl from urine and plasma samples.
Analytical Methods, 5, (24), 7096-7101, (2013)
   

fentanyl

Proceeding, Liu LL et al, Molecularly Imprinted Nanoparticles Based on Long Period Grating Sensor for Detection of Fentanyl, 
Article_WF7, (2018)
   

fenthion

Bakas I et al., Molecularly imprinted polymer cartridges coupled to high performance liquid chromatography (HPLC-UV) for simple and rapid analysis of fenthion in olive oil.
Talanta, 125, 313-318, (2014)
   

fenthion

Liu LX et al., Magnetic solid phase extraction sorbents using methyl-parathion and quinalphos dual-template imprinted polymers coupled with GC-MS for class-selective extraction of twelve organophosphorus pesticides.
Microchimica Acta, 187, (9), Article503-(2020)
   

fenthion sulfoxide

Boulanouar S et al., Synthesis and application of molecularly imprinted silica for the selective extraction of some polar organophosphorus pesticides from almond oil.
Analytica Chimica Acta, 1018, 35-44, (2018)
   

fenuron

Wang JC et al., Preparation of molecularly imprinted polymer and its recognition property for phenylurea herbicides.
Chemical Journal of Chinese Universities, 27, (7), 1227-1231, (2006)
   

fenvalerate

Shi XZ et al., Group-selective enrichment and determination of pyrethroid insecticides in aquaculture seawater via molecularly imprinted solid phase extraction coupled with gas chromatography-electron capture detection.
Journal of Chromatography A, 1227, (1), 60-66, (2012)
   

fenvalerate

Zang DJ et al., A novel high selectivity chemiluminescence sensor for fenvalerate based on double-sided hollow molecularly imprinted materials.
Analyst, 137, (18), 4247-4253, (2012)
   

fenvalerate

Nezhadali A et al., A Molecularly Imprinted Polymer for the Selective Extraction and Determination of Fenvalerate from Food Samples Using High-Performance Liquid Chromatography.
Food Analytical Methods, 8, (5), 1225-1237, (2015)
   

fenvalerate

Han WJ et al., A fluorescent molecularly imprinted polymer sensor synthesized by atom transfer radical precipitation polymerization for determination of ultra trace fenvalerate in the environment.
RSC Advances, 6, (84), 81346-81353, (2016)
   

fenvalerate

Ji WH et al., Rapid, low temperature synthesis of molecularly imprinted covalent organic frameworks for the highly selective extraction of cyano pyrethroids from plant samples.
Analytica Chimica Acta, 1001, 179-188, (2018)
   

fenvalerate

Zhang M et al., Application of pseudo-template molecularly imprinted polymers by atom transfer radical polymerization to the solid-phase extraction of pyrethroids.
Talanta, 178, 1011-1016, (2018)
   

fenvalerate

Zhao YN et al., Dummy-surface molecularly imprinted polymers based on magnetic graphene oxide for selective extraction and quantification of pyrethroids pesticides in fruit juices.
Microchemical Journal, 159, Article105411-(2020)
   

[{Fe(O2CC(Cl)=CH2)(OMe)2}10]

Harben SM et al., Polymer imprinting with iron-oxo-hydroxo clusters: [Fe6O2(OH)2(O2CC(Cl)=CH2)12(H2O)2], [Fe6O2(OH)2(O2C-Ph-(CH)=CH2)12(H2O)2] and [{Fe(O2CC(Cl)=CH2)(OMe)2}10].
Dalton Transactions, 41, (1), 208-218, (2012)
   

[Fe6O2(OH)2(O2CC(Cl)=CH2)12(H2O)2]

Harben SM et al., Polymer imprinting with iron-oxo-hydroxo clusters: [Fe6O2(OH)2(O2CC(Cl)=CH2)12(H2O)2], [Fe6O2(OH)2(O2C-Ph-(CH)=CH2)12(H2O)2] and [{Fe(O2CC(Cl)=CH2)(OMe)2}10].
Dalton Transactions, 41, (1), 208-218, (2012)
   

[Fe6O2(OH)2(O2C-Ph-(CH)=CH2)12(H2O)2]

Harben SM et al., Polymer imprinting with iron-oxo-hydroxo clusters: [Fe6O2(OH)2(O2CC(Cl)=CH2)12(H2O)2], [Fe6O2(OH)2(O2C-Ph-(CH)=CH2)12(H2O)2] and [{Fe(O2CC(Cl)=CH2)(OMe)2}10].
Dalton Transactions, 41, (1), 208-218, (2012)
   

ferric ion

Nishide H et al., Selective adsorption of metal ions on crosslinked poly(vinylpyridine) resin prepared with a metal ion as a template.
Chemistry Letters, 5, (2), 169-174, (1976)
   

ferric ion

Owens GS et al., Molecularly imprinted ion-exchange resin for Fe3+.
Separation Science and Technology, 40, (11), 2205-2211, (2005)
   

ferric ion

Saatçilar Ö et al., Binding behavior of Fe3+ ions on ion-imprinted polymeric beads for analytical applications.
Journal of Applied Polymer Science, 101, (5), 3520-3528, (2006)
   

ferric ion

Yavuz H et al., Molecular recognition based iron removal from human plasma with imprinted membranes.
International Journal of Artificial Organs, 29, (9), 900-911, (2006)
   

ferric ion

Chang XJ et al., Solid-phase extraction of iron(III) with an ion-imprinted functionalized silica gel sorbent prepared by a surface imprinting technique.
Talanta, 71, (1), 38-43, (2007)
   

ferric ion

Karabörk M et al., Preconcentration of Fe(III) Using Fe(III)-Ion Imprinted Polymeric Traps and Its Analytical Performance for FAAS.
Hacettepe Journal of Biology and Chemistry, 35, (2), 135-142, (2007)
   

ferric ion

Özkütük EB et al., Fe3+-Imprinted Polymeric Systems.
Hacettepe Journal of Biology and Chemistry, 35, (3), 195-202, (2007)
   

ferric ion

Qi JY et al., Preparation and property of microspheric Fe(III) imprinted polymer.
Material Science and Technology, 15, (6), 767-773, (2007)
   

ferric ion

Qi JY et al., Preparation and property of microspheric Fe(III) imprinted polymer.
Materials Science and Technology, 15, (6), 767-769,773, (2007)
   

ferric ion

Utku S et al., Ion-Imprinted Thermosensitive Polymers for Fe3+ Removal from Human Plasma.
Hacettepe Journal of Biology and Chemistry, 36, (4), 291-304, (2008)
   

ferric ion

Dey RK et al., Removal of Toxic/Heavy Metal Ions Using Ion-Imprinted Aminofunctionalized Silica Gel.
Separation Science and Technology, 44, (8), 1829-1850, (2009)
   

ferric ion

Asliyüce S et al., Ion-imprinted supermacroporous cryogel, for in vitro removal of iron out of human plasma with beta thalassemia.
Separation and Purification Technology, 73, (2), 243-249, (2010)
   

ferric ion%

Özkara S et al., Ion-imprinted PHEMA based monolith for the removal of Fe3+ ions from aqueous solutions.
Journal of Applied Polymer Science, 120, (3), 1829-1836, (2011)
   

ferric ion

Dai J et al., Adsorption Behavior of Fe(II) and Fe(III) Ions on Thiourea Cross-Linked Chitosan with Fe(III) as Template.
Molecules, 17, (4), 4388-4399, (2012)
   

ferric ion

Ergün B et al., Ion imprinted beads embedded cryogels for in vitro removal of iron from β-thalassemic human plasma.
Journal of Applied Polymer Science, 125, (1), 254-262, (2012)
   

ferric ion

Fan HT et al., Selective Removal of Iron from Aqueous Solution using Ion Imprinted Cyanato-Functionalized Silica Gel Sorbents.
Separation Science and Technology, 47, (3), 507-512, (2012)
   

ferric ion

Fan HT et al., Selective removal of iron from aqueous solution using ion imprinted thiocyanato-functionalized silica gel sorbents.
Korean Journal of Chemical Engineering, 29, (6), 798-803, (2012)
   

ferric ion

Xie FZ et al., Selective adsorption and separation of trace dissolved Fe(III) from natural water samples by double template imprinted sorbent with chelating diamines.
Chemical Engineering Journal, 183, (1), 372-380, (2012)
   

ferric ion

Gao X et al., Photocatalytic properties of Fe3+@ dual conducting polymers /TiO2/HNTs composite by ion imprinting technology.
Fresenius Environmental Bulletin, 22, (8A), 2385-2392, (2013)
   

ferric ion

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

ferric ion

Djunaidi MC et al., Synthesis of Fe ionic-imprinted polyeugenol using polyethylene glycol diglycidilether as cross-linking agent for sorption of Fe(III).
Indonesian Journal of Chemistry, 15, (3), 305-314, (2015)
   

ferric ion

Djunaidi MC et al., Selective Transport of Fe(III) Using Polyeugenol as Functional Polymer with Ionic Imprinted Polymer Membrane Method.
Asian Journal of Chemistry, 27, (12), 4553-4562, (2015)
   

ferric ion

Proceeding, Djunaidi MC et al, Selective transport of Fe(III) using ionic imprinted polymer (IIP) membrane particle, 
In: AIP Conference Proceedings, ArticleNo060001, (2015)
   

ferric ion

Gao BJ et al., Preparation of Fe(III) ion surface-imprinted material for removing Fe(III) impurity from lanthanide ion solutions.
Journal of Industrial and Engineering Chemistry, 24, 351-358, (2015)
   

ferric ion

Çimen D et al., Removal of iron by chelation with molecularly imprinted supermacroporous cryogel.
Artificial Cells, Nanomedicine, and Biotechnology, 44, (4), 1158-1166, (2016)
   

ferric ion

Roushani M et al., Synthesis and application of ion-imprinted polymer for extraction and pre-concentration of iron ions in environmental water and food samples.
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 153, 637-644, (2016)
   

ferric ion

Djunaidi M et al., Role of Number of Imprinted Cavity on the Selectivity of the Imprinted Polymer.
Advanced Science Letters 23 6506-6512 (2017)
   

ferric ion

Djunaidi MC et al., The Influence of type of Functional Groups on the Adsorption Selectivity of Ionic Imprinted Polymer (IIP) Fe.
Oriental Journal of Chemistry, 33, (6), 2992-2997, (2017)
   

ferric ion

He HX et al., Synthesis and characterization of a surface imprinting silica gel polymer functionalized with phosphonic acid groups for selective adsorption of Fe(III) from aqueous solution.
Journal of Applied Polymer Science, 134, (36), ArticleNo45165-(2017)
   

ferric ion

Kumar IA et al., Development of multivalent metal ions imprinted chitosan biocomposites for phosphate sorption.
International Journal of Biological Macromolecules, 104, (Part B), 1539-1547, (2017)
   

ferric ion

Mitreva M et al., Iron(II) ion imprinted polymer for Fe(II)/Fe(III) speciation in wine.
Microchemical Journal, 132, 238-244, (2017)
   

ferric ion

Ara B et al., Preparation of microspheric Fe(III)-ion imprinted polymer for selective solid phase extraction.
Applied Water Science, 8, (1), ArticleNo41-(2018)
   

ferric ion

Hu C et al., Preparation and adsorption properties of IIP-PMAA/SiO2 iron ion imprinted material.
Journal of Functional Materials, 49, (3), 3087-3091, (2018)
   

ferric ion

Ying RJ et al., Ion imprinted dual reference ratiometric fluorescence probe for respective and simultaneous detection of Fe3+ and Cu2+.
New Journal of Chemistry, 43, (16), 6404-6410, (2019)
   

ferric ion

Zhu GJ et al., A novel ion-imprinted polymer for selective removal of trace Fe(III) from Cr(III)-containing solutions.
Hydrometallurgy, 186, 105-114, (2019)
   

ferric ions

Yavuz H et al., Iron removal from human plasma based on molecular recognition using imprinted beads.
Materials Science and Engineering: C, 25, (4), 521-528, (2005)
   

ferric ions

Karabörk M et al., Selective Preconcentration of Fe3+ Using Ion-Imprinted Thermosensitive Particles.
Hacettepe Journal of Biology and Chemistry, 38, (1), 27-39, (2010)
   

ferric ions

Yalinca Z et al., Evaluation of chitosan tripolyphosphate gel beads as bioadsorbents for iron in aqueous solution and in human blood in vitro.
Journal of Applied Polymer Science, 125, (2), 1493-1505, (2012)
   

ferric ions

Djunaidi MC et al., The Impact of Template Types on Polyeugenol to the Adsorption Selectivity of Ionic Imprinted Polymer (IIP) Fe Metal Ion.
IOP Conference Series: Materials Science and Engineering, 349, (1), ArticleNo012034-(2018)
   

ferric iron binding protein

Gupta N et al., Epitope imprinting of iron binding protein of Neisseria meningitidis bacteria through multiple monomers imprinting approach.
Journal of Molecular Recognition, 31, (7), ArticleNoe2709-(2018)
   

ferritin

Du XZ et al., Langmuir monolayer approaches to protein recognition through molecular imprinting.
Biosensors and Bioelectronics, 20, (10), 2053-2060, (2005)
   

ferritin

Dhruv H et al., Protein insertion and patterning of PEG-bearing Langmuir monolayers.
Biotechnology Progress, 22, (1), 150-155, (2006)
   

ferritin

Turner NW et al., Formation of protein molecular imprints within Langmuir monolayers: A quartz crystal microbalance study.
Journal of Colloid and Interface Science, 308, (1), 71-80, (2007)
   

ferritin

Bosserdt M et al., Microelectrospotting as a new method for electrosynthesis of surface-imprinted polymer microarrays for protein recognition.
Biosensors and Bioelectronics, 73, 123-129, (2015)
   

ferritin

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

ferritin

Sales MGF et al., Autonomous electrochemical biosensors: A new vision to direct methanol fuel cells.
Biosensors and Bioelectronics, 98, 428-436, (2017)
   

ferrocene

Proceeding, Patterson ML, Molecular imprinting: Does it play a role in the reduction of oxidized redox shuttle molecules?, 
203-212, (2011)
   

ferrocenecarboxylic acid

Xu ZF et al., Studies on the Preparation, Mechanism of Recognition and Binding Characteristic of Ferrocenecarboxylic Acid Imprinted Polymers.
Chinese Journal of Applied Chemistry, 27, (4), 384-389, (2010)
   

ferrocenylmethyl alcohol

Ginzburg-Turgeman R et al., Nanometric thin polymeric films based on molecularly imprinted technology: Towards electrochemical sensing applications.
Physical Chemistry Chemical Physics, 12, (36), 11041-11050, (2010)
   

ferrocyanide ion

Fujiwara I et al., Ferrocyanide-templated resins prepared by surface template polymerization.
Analytical Sciences, 12, (4), 545-549, (1996)
   

ferrocyanide ion

Fujiwara I, Preparation of anion-imprinted resin by a surface-imprinting polymerization method and its use for chemical separation.
Bunseki Kagaku, 54, (3), 243-244, (2005)
   

ferrous ion

Glass AC et al., Synthesis and catalytic activity of an iron(II) molecularly imprinted polymer.
Abstracts of Papers of the American Chemical Society, 231, (INOR), 145-145, (2006)
   

ferrous ion

An FQ et al., Removal of Fe(II) from Ce(III) and Pr(III) rare earth solution using surface imprinted polymer.
Desalination and Water Treatment, 51, (28-30), 5566-5573, (2013)
   

ferrous ion

Wang WS et al., Effective removal of Fe(II) impurity from rare earth solution using surface imprinted polymer.
Chemical Engineering Research and Design, 91, (12), 2759-2764, (2013)
   

ferrous ion

Kang YG et al., Activation of persulfate by a novel Fe(II)-immobilized chitosan/alginate composite for bisphenol A degradation.
Chemical Engineering Journal, 353, 736-745, (2018)
   

ferulic acid

Yoon SK et al., Synthesis of molecularly imprinted polymer (MIP) by radiation-induced polymerization and separation of ferulic acid from rice oil using MIP-packed column.
Analytical Science &Technology, 19, (3), 218-225, (2006)
   

ferulic acid

Zhu XF et al., Ferulic acid-selective polymers prepared by molecular imprinting of hydrogenated ferulic acid as dummy template.
Chinese Journal of Analytical Chemistry, 34, (S1), S118-S122, (2006)
   

ferulic acid

Chen FF et al., Molecularly imprinted polymer microspheres for solid-phase extraction of protocatechuic acid in Rhizoma homalomenae.
Journal of Separation Science, 34, (19), 2602-2610, (2011)
   

ferulic acid

Zhu T et al., Molecularly imprinted monolithic material for the extraction of three organic acids from Salicornia herbacea L.
Journal of Applied Polymer Science, 121, (3), 1691-1696, (2011)
   

Ferulic acid

Bi W et al., Separation of phenolic acids from natural plant extracts using molecularly imprinted anion-exchange polymer confined ionic liquids.
Journal of Chromatography A, 1232, (1), 37-42, (2012)
   

ferulic acid

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

ferulic acid

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

ferulic acid

Benito-Peńa E et al., Molecularly imprinted hydrogels as functional active packaging materials.
Food Chemistry, 190, 487-494, (2016)
   

ferulic acid

Gao BJ et al., Designing and preparation of ferulic acid surface-imprinted material and its molecular recognition characteristics.
RSC Advances, 6, (5), 3986-3996, (2016)
   

ferulic acid

Yang Q et al., Design and Preparation of Ferulic Acid Surface-Imprinted Material and Its Molecular Recognition Characteristic.
Polymer Materials Science and Engineering, 32, (2), 173-178+185, (2016)
   

ferulic acid

Yin YL et al., Polydopamine-coated magnetic molecularly imprinted polymer for the selective solid-phase extraction of cinnamic acid, ferulic acid and caffeic acid from radix scrophulariae sample.
Journal of Separation Science, 39, (8), 1480-1488, (2016)
   

ferulic acid

Liu HL et al., Isolation and Purification of Three Analogues from Clematis akebioides by Molecularly Imprinted Solid-Phase Extraction and HSCCC.
Chromatographia, 80, (11), 1651-1658, (2017)
   

ferulic acid

Wei MH et al., Synthesis and Characterization of Hybrid Molecularly Imprinted Membrane with Blending SiO2 Nanoparticles for Ferulic Acid.
Journal of Inorganic and Organometallic Polymers and Materials, 27, (2), 586-597, (2017)
   

ferulic acid

Wei MH et al., Preparation and Characterization of Dual-Template Molecularly Imprinted Membrane with High Flux Based on Blending the Inorganic Nanoparticles.
Journal of Inorganic and Organometallic Polymers and Materials, 28, (1), 295-307, (2018)
   

ferulic acid

Wang Y et al., A Novel Fluorescence and SPE Adsorption Nanomaterials of Molecularly Imprinted Polymers Based on Quantum Dot-Grafted Covalent Organic Frameworks for the High Selectivity and Sensitivity Detection of Ferulic Acid.
Nanomaterials, 9, (2), ArticleNo305-(2019)
   

ferulic acid

Wang ZH et al., Molecularly Imprinted Polymers-Coated CdTe Quantum Dots for Highly Sensitive and Selective Fluorescent Determination of Ferulic Acid.
Journal of Analytical Methods in Chemistry, 2019, Article1505878-(2019)
   

ferulic acid

Alipanahpour Dil E et al., Magnetic dual-template molecularly imprinted polymer based on syringe-to-syringe magnetic solid-phase microextraction for selective enrichment of p-Coumaric acid and ferulic acid from pomegranate, grape, and orange samples.
Food Chemistry, 325, Article126902-(2020)
   

ferulic acid

Buffon E et al., A molecularly imprinted polymer on reduced graphene oxide-gold nanoparticles modified screen-printed electrode for selective determination of ferulic acid in orange peels.
Microchemical Journal, 167, Article106339-(2021)
   

ferulic acid

Fu LL et al., Magnetic carbon nanotubes-molecularly imprinted polymer coupled with HPLC for selective enrichment and determination of ferulic acid in traditional Chinese medicine and biological samples.
Journal of Chromatography B, 1180, Article122870-(2021)
   

α-Fetoprotein

Bi XD et al., Facile Preparation of Glycoprotein-Imprinted 96-Well Microplates for Enzyme-Linked Immunosorbent Assay by Boronate Affinity-Based Oriented Surface Imprinting.
Analytical Chemistry, 86, (1), 959-966, (2014)
   

α-fetoprotein

Ye J et al., A Boronate Affinity Sandwich Assay: An Appealing Alternative to Immunoassays for the Determination of Glycoproteins.
Angewandte Chemie International Edition, 53, (39), 10386-10389, (2014)
   

α-fetoprotein

Tan L et al., A fluorescent turn-on detection scheme for α-fetoprotein using quantum dots placed in a boronate-modified molecularly imprinted polymer with high affinity for glycoproteins.
Microchimica Acta, 182, (15-16), 2615-2622, (2015)
   

α-fetoprotein

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

α-fetoprotein

Ouyang J et al., Fabrication of Surface Protein-Imprinted Biofuel Cell for Sensitive Self-Powered Glycoprotein Detection.
ACS Applied Materials & Interfaces, 8, (51), 35004-35011, (2016)
   

α-fetoprotein

Muhammad P et al., Molecularly Imprinted Plasmonic Substrates for Specific and Ultrasensitive Immunoassay of Trace Glycoproteins in Biological Samples.
ACS Applied Materials & Interfaces, 9, (13), 12082-12091, (2017)
   

α-fetoprotein

Chen GS et al., Allochroic-Graphene Oxide Linked 3D Oriented Surface Imprinting Strategy for Glycoproteins Assays.
Advanced Functional Materials, 28, (40), ArticleNo1804129-(2018)
   

α-fetoprotein

Lai YX et al., A novel α-fetoprotein-MIP immunosensor based on AuNPs/PTh modified glass carbon electrode.
Chinese Chemical Letters, 30, (1), 160-162, (2019)
   

α-fetoprotein

Morishige T et al., Post-Imprinting-Modified Molecularly Imprinted Nanocavities with Two Synergetic, Orthogonal, Glycoprotein-Binding Sites to Transduce Binding Events into Fluorescence Changes.
ChemNanoMat, 5, (2), 224-229, (2019)
   

α-fetoprotein

Tawfik SM et al., Dual emission nonionic molecular imprinting conjugated polythiophenes-based paper devices and their nanofibers for point-of-care biomarkers detection.
Biosensors and Bioelectronics, 160, Article112211-(2020)
   

α-fetoprotein

Sunayama H et al., Simultaneous Detection of Two Tumor Marker Proteins Using Dual-Colored Signaling Molecularly Imprinted Polymers Prepared via Multi-Step Post-Imprinting Modifications.
Bulletin of the Chemical Society of Japan, 94, (2), 525-531, (2021)
   

FF

Ge SG et al., On-line molecular imprinted solid-phase extraction flow-injection fluorescence sensor for determination of florfenicol in animal tissues.
Journal of Pharmaceutical and Biomedical Analysis, 52, (4), 615-619, (2010)
   

FF

Lv YK et al., Preparation of molecularly imprinted microspheres for solid-phase extraction coupled with HPLC for determination of the florfenicol residue in milk.
International Journal of Science Innovations and Discoveries, 2, (6), 610-616, (2012)
   

FF

Shi XZ et al., Characterisation and application of molecularly imprinted polymers for group-selective recognition of antibiotics in food samples.
Analyst, 137, (14), 3381-3389, (2012)
   

FF

Sadeghi S et al., Selective solid-phase extraction using molecular imprinted polymer sorbent for the analysis of Florfenicol in food samples.
Food Chemistry, 141, (2), 1242-1251, (2013)
   

FF

Sadeghi S et al., Solid-Phase Extraction of Florfenicol from Meat Samples by a Newly Synthesized Surface Molecularly Imprinted Sol-Gel Polymer.
Food Analytical Methods, 7, (10), 2084-2094, (2014)
   

FF

Lv YK et al., Fast clean-up and selective enrichment of florfenicol in milk by restricted access media molecularly imprinted magnetic microspheres based on surface-initiated photoiniferter-mediated polymerization.
Analytical Methods, 8, (19), 3982-3989, (2016)
   

FF

Sadeghi S et al., The development of a new optical sensor based on the Mn doped ZnS quantum dots modified with the molecularly imprinted polymers for sensitive recognition of florfenicol.
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 159, 83-89, (2016)
   

FF

Wei SL et al., Development of magnetic molecularly imprinted polymers with double templates for the rapid and selective determination of amphenicol antibiotics in water, blood, and egg samples.
Journal of Chromatography A, 1473, 19-27, (2016)
   

FF

Guo SY et al., Selective Removal of Florfenicol from Fetal Bovine Serum by Restricted Access Media-Magnetic Molecularly Imprinted Polymers.
Chromatographia, 84, (9), 845-854, (2021)
   

FF

Li F et al., Release of florfenicol in seawater using chitosan-based molecularly imprinted microspheres as drug carriers.
Marine Pollution Bulletin, 173, Article113068-(2021)
   

FFA

Shi XZ et al., Characterisation and application of molecularly imprinted polymers for group-selective recognition of antibiotics in food samples.
Analyst, 137, (14), 3381-3389, (2012)
   

FHO

Yuan YA et al., Ionic liquid-molecularly imprinted polymers for pipette tip solid-phase extraction of (Z)-3-(chloromethylene)-6-flourothiochroman-4-one in urine.
Journal of Chromatography A, 1408, 49-55, (2015)
   

fibrinogen

Çimen D et al., Molecularly imprinted hydrogels for fibrinogen recognition.
Reactive and Functional Polymers, 69, (9), 655-659, (2009)
   

fibrinogen

Rosellini E et al., Novel bioactive scaffolds with fibronectin recognition nanosites based on molecular imprinting technology.
Journal of Applied Polymer Science, 118, (6), 3236-3244, (2010)
   

fibronectin

Fukazawa K et al., Fabrication of a cell-adhesive protein imprinting surface with an artificial cell membrane structure for cell capturing.
Biosensors and Bioelectronics, 25, (3), 609-614, (2009)
   

fibronectin

Fukazawa K et al., Molecular-NANOintegrated surface for selective protein recognition by molecular imprinting concept.
European Cells and Materials, 20, (Suppl 3), 86-86, (2010)
   

fibronectin

Zhu DW et al., Polypropylene non-woven supported fibronectin molecular imprinted calcium alginate/polyacrylamide hydrogel film for cell adhesion.
Chinese Chemical Letters, 26, (6), 807-810, (2015)
   

fipronil

Yang CH et al., Fluorometric determination of fipronil by integrating the advantages of molecularly imprinted silica and carbon quantum dots.
Microchimica Acta, 187, (1), Article12-(2019)
   

fipronil

Teixeira RA et al., Microextraction by packed molecularly imprinted polymer followed by ultra-high performance liquid chromatography for determination of fipronil and fluazuron residues in drinking water and veterinary clinic wastewater.
Microchemical Journal, 168, Article106405-(2021)
   

fisetin

Li L et al., Solid-phase extraction of active component of Chinese traditional medicine fisetin by using molecularly imprinted polymers.
Chemical Journal of Chinese Universities, 27, (4), 608-611, (2006)
   

fisetin

Ma X et al., Hierarchical porous MXene/amino carbon nanotubes-based molecular imprinting sensor for highly sensitive and selective sensing of fisetin.
Sensors and Actuators B: Chemical, 309, Article127815-(2020)
   

FITC

Hammond GD et al., Integrating Nanostructured Artificial Receptors with Whispering Gallery Mode Optical Microresonators via Inorganic Molecular Imprinting Techniques.
Biosensors, 6, (2), ArticleNo26-(2016)
   

FITC-albumin

Hawkins DM et al., Quantification and Confocal Imaging of Protein Specific Molecularly Imprinted Polymers.
Biomacromolecules, 7, (9), 2560-2564, (2006)
   

FITC-albumin

Vozzi G et al., SOFT-MI: A novel microfabrication technique integrating soft-lithography and molecular imprinting for tissue engineering applications.
Biotechnology and Bioengineering, 106, (5), 804-817, (2010)
   

FK506 binding protein 23

Gao JF et al., The design of protein-imprinted polymers as antibody substitutes for investigating protein-protein interactions.
Biomaterials, 33, (11), 3344-3352, (2012)
   

FKBP23

Gao JF et al., The design of protein-imprinted polymers as antibody substitutes for investigating protein-protein interactions.
Biomaterials, 33, (11), 3344-3352, (2012)
   

FL

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

Fl

Song XL et al., Determination of 16 polycyclic aromatic hydrocarbons in seawater using molecularly imprinted solid-phase extraction coupled with gas chromatography-mass spectrometry.
Talanta, 99, 75-82, (2012)
   

FL

Villar-Navarro M et al., Easy, fast and environmental friendly method for the simultaneous extraction of the 16 EPA PAHs using magnetic molecular imprinted polymers (mag-MIPs).
Journal of Chromatography B, 1044-1045, 63-69, (2017)
   

FLAG epitope

Gómez-Arribas LN et al., Tag-Specific Affinity Purification of Recombinant Proteins by Using Molecularly Imprinted Polymers.
Analytical Chemistry, 91, (6), 4100-4106, (2019)
   

FLAG tag

Gómez-Arribas LN et al., Hierarchically Imprinted Polymer for Peptide Tag Recognition Based on an Oriented Surface Epitope Approach.
ACS Applied Materials & Interfaces, 12, (43), 49111-49121, (2020)
   

flavan-3-ols

Mora-Granados M et al., Disposable electrochemical sensor combined with molecularly imprinted solid-phase extraction for catabolites detection of flavan-3-ol in urine samples.
Talanta, 235, Article122734-(2021)
   

flaviviruses

Ricotta V et al., A chip-based potentiometric sensor for a Zika virus diagnostic using 3D surface molecular imprinting.
Analyst, 144, (14), 4266-4280, (2019)
   

flavone

Zhang YQ et al., Study of the Preparation of Flavone Imprinted Silica Microspheres and Their Molecular Recognition Function.
Chemical Engineering & Technology, 30, (8), 1014-1019, (2007)
   

flavone

Zhang YQ et al., Synthesis of silica adsorbent and its selective separation for flavone (Translated from: Journal of Tianjin University, 2007, 40(4): 411-415).
Frontiers of Chemistry in China, 3, (3), 320-324, (2008)
   

flavonoid

Tasselli F et al., Evaluation of molecularly imprinted membranes based on different acrylic copolymers.
Journal of Membrane Science, 320, (1-2), 167-172, (2008)
   

flavonoid glucosides

Peng MJ et al., Boronate affinity-based surface molecularly imprinted polymers using glucose as fragment template for excellent recognition of glucosides.
Journal of Chromatography A, 1474, 8-13, (2016)
   

flavonoid metabolites

Zhang JW et al., Extraction of activated epimedium glycosides in vivo and in vitro by using bifunctional-monomer chitosan magnetic molecularly imprinted polymers and identification by UPLC-Q-TOF-MS.
Talanta, 219, Article121350-(2020)
   

flavonoids

Weiss R et al., Molecular imprinting and solid phase extraction of flavonoid compounds.
Bioseparation, 10, (6), 379-387, (2002)
   

flavonoids

Steiakaki MA et al., An insight into the recognition mechanisms of Molecularly Imprinted Polymers (MIPs) for flavonoids quercetin, kaempferol and hydroxytyrosol.
Planta Medica, 74, (9), 1152-1152, (2008)
   

flavonoids

Zhang YQ et al., Development of a molecularly imprinted membrane for selective separation of flavonoids.
Separation and Purification Technology, 76, (3), 337-344, (2011)
   

flavonoids

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)
   

flavonoids

Bi WT et al., Evaluation of molecularly imprinted anion-functionalized poly(ionic liquid)s by multi-phase dispersive extraction of flavonoids from plant.
Journal of Chromatography B, 913-914, 61-68, (2013)
   

flavonoids

Proceeding, Xie YH et al, Preparation of mixed molecularly imprinted polymer magnetic nanoparticles and its application in separation of Chinese traditional medicine, 
In: AIP Conference Proceedings, ArticleNo020209, (2017)
   

flavonoids

Li XX et al., Preparation of two-dimensional magnetic molecularly imprinted polymers based on boron nitride and a deep eutectic solvent for the selective recognition of flavonoids.
Analyst, 144, (5), 1777-1788, (2019)
   

flavonoids

Ma XB et al., Magnetic molecularly imprinted polymers doped with graphene oxide for the selective recognition and extraction of four flavonoids from Rhododendron species.
Journal of Chromatography A, 1598, 39-48, (2019)
   

flavonoids

Liang C et al., Ordered macroporous molecularly imprinted polymers prepared by a surface imprinting method and their applications to the direct extraction of flavonoids from Gingko leaves.
Food Chemistry, 309, Article125680-(2020)
   

flavonoids

Zhang JW et al., Extraction of activated epimedium glycosides in vivo and in vitro by using bifunctional-monomer chitosan magnetic molecularly imprinted polymers and identification by UPLC-Q-TOF-MS.
Talanta, 219, Article121350-(2020)
   

flavonol

Suárez-Rodríguez JL et al., Flavonol fluorescent flow-through sensing based on a molecular imprinted polymer.
Analytica Chimica Acta, 405, (1-2), 67-76, (2000)
   

flavonol

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

flavonol

Gómez-Pineda LE et al., Physico-chemical characterization of flavonol molecularly imprinted polymers.
Reactive and Functional Polymers, 71, (4), 402-408, (2011)
   

flavonol glycosides

Li XJ et al., Green synthesis and evaluation of isoquercitrin imprinted polymers for class-selective separation and purification of flavonol glycosides.
Analytical Methods, 7, (11), 4717-4724, (2015)
   

FLD

Deng QL et al., Preparation and evaluation of molecularly imprinted monolithic column for felodipine in micro-liquid chromatography.
Chinese Chemical Letters, 16, (7), 955-958, (2005)
   

FLD

Deng QL et al., Molecularly imprinted polymers as tools for the screening of felodipine from dihydropyridine calcium antagonists by pressurized capillary electrochromatography.
Analytical and Bioanalytical Chemistry, 382, (1), 51-58, (2005)
   

FLE

Wang HW et al., Selective extraction and determination of fluoroquinolones in bovine milk samples with montmorillonite magnetic molecularly imprinted polymers and capillary electrophoresis.
Analytical and Bioanalytical Chemistry, 408, (2), 589-598, (2016)
   

fleroxacin

Chen LG et al., Determination of fluoroquinolone antibiotics in environmental water samples based on magnetic molecularly imprinted polymer extraction followed by liquid chromatography-tandem mass spectrometry.
Analytica Chimica Acta, 662, (1), 31-38, (2010)
   

fleroxacin

Liu PY et al., Determination of Fluoroquinolones in Milk by High-Performance Liquid Chromatography Using Mixed-Templates Imprinted Polymer Extraction.
Asian Journal of Chemistry, 22, (8), 6275-6288, (2010)
   

fleroxacin

Sun XL et al., Novel dummy molecularly imprinted polymers for matrix solid-phase dispersion extraction of eight fluoroquinolones from fish samples.
Journal of Chromatography A, 1359, 1-7, (2014)
   

fleroxacin

Wang HW et al., Selective extraction and determination of fluoroquinolones in bovine milk samples with montmorillonite magnetic molecularly imprinted polymers and capillary electrophoresis.
Analytical and Bioanalytical Chemistry, 408, (2), 589-598, (2016)
   

fleroxacin

Zhang H et al., Internal Extractive Electrospray Ionization Mass Spectrometry for Quantitative Determination of Fluoroquinolones Captured by Magnetic Molecularly Imprinted Polymers from Raw Milk.
Scientific Reports, 7, (1), ArticleNo14714-(2017)
   

fleroxacin

Tang YW et al., Upconversion particle@Fe3O4@molecularly imprinted polymer with controllable shell thickness as high-performance fluorescent probe for sensing quinolones.
Talanta, 181, 95-103, (2018)
   

flonicamid

Yuan XY et al., N-doped carbon dots derived from covalent organic frameworks embedded in molecularly imprinted polymers for optosensing of flonicamid.
Microchemical Journal, 159, Article105585-(2020)
   

flonicamid

Yuan XY et al., High-Performance Multiporous Imprinted Microspheres Based on N-Doped Carbon Dots Exfoliated from Covalent Organic Framework for Flonicamid Optosensing.
ACS Applied Materials & Interfaces, 12, (22), 25150-25158, (2020)
   

Florfenicol

Ge SG et al., On-line molecular imprinted solid-phase extraction flow-injection fluorescence sensor for determination of florfenicol in animal tissues.
Journal of Pharmaceutical and Biomedical Analysis, 52, (4), 615-619, (2010)
   

Florfenicol

Lv YK et al., Preparation of molecularly imprinted microspheres for solid-phase extraction coupled with HPLC for determination of the florfenicol residue in milk.
International Journal of Science Innovations and Discoveries, 2, (6), 610-616, (2012)
   

florfenicol

Shi XZ et al., Characterisation and application of molecularly imprinted polymers for group-selective recognition of antibiotics in food samples.
Analyst, 137, (14), 3381-3389, (2012)
   

florfenicol

Barreiro R et al., Development of a HPLC-MS/MS confirmatory method for the simultaneous determination of amphenicols in baby formulas using molecularly imprinted polymers.
Analytical Methods, 5, (16), 3970-3976, (2013)
   

florfenicol

Ge YR et al., Preparation and Evaluation of Florfenicol Imprinted Polymers by Using Nano-Titanium Dioxide.
Asian Journal of Chemistry, 25, (16), 9105-9109, (2013)
   

florfenicol

Lü YK et al., On-line Solid-Phase Extraction Using Molecularly Imprinted Polymer Microspheres in Combination with HPLC for the Determination of Amphenicols Residues in Milk.
Food Science, 34, (16), 238-242, (2013)
   

florfenicol

Sadeghi S et al., Selective solid-phase extraction using molecular imprinted polymer sorbent for the analysis of Florfenicol in food samples.
Food Chemistry, 141, (2), 1242-1251, (2013)
   

florfenicol

Sadeghi S et al., Solid-Phase Extraction of Florfenicol from Meat Samples by a Newly Synthesized Surface Molecularly Imprinted Sol-Gel Polymer.
Food Analytical Methods, 7, (10), 2084-2094, (2014)
   

florfenicol

Chen HY et al., Rapid preparation of molecularly imprinted polymers by microwave-assisted emulsion polymerization for the extraction of florfenicol in milk.
Journal of Chromatography B, 983-984, 32-38, (2015)
   

florfenicol

Lv YK et al., Fast clean-up and selective enrichment of florfenicol in milk by restricted access media molecularly imprinted magnetic microspheres based on surface-initiated photoiniferter-mediated polymerization.
Analytical Methods, 8, (19), 3982-3989, (2016)
   

florfenicol

Sadeghi S et al., The development of a new optical sensor based on the Mn doped ZnS quantum dots modified with the molecularly imprinted polymers for sensitive recognition of florfenicol.
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 159, 83-89, (2016)
   

florfenicol

Wei SL et al., Development of magnetic molecularly imprinted polymers with double templates for the rapid and selective determination of amphenicol antibiotics in water, blood, and egg samples.
Journal of Chromatography A, 1473, 19-27, (2016)
   

florfenicol

Guo SY et al., Selective Removal of Florfenicol from Fetal Bovine Serum by Restricted Access Media-Magnetic Molecularly Imprinted Polymers.
Chromatographia, 84, (9), 845-854, (2021)
   

florfenicol

Li F et al., Release of florfenicol in seawater using chitosan-based molecularly imprinted microspheres as drug carriers.
Marine Pollution Bulletin, 173, Article113068-(2021)
   

florfenicol amine

Shi XZ et al., Characterisation and application of molecularly imprinted polymers for group-selective recognition of antibiotics in food samples.
Analyst, 137, (14), 3381-3389, (2012)
   

floxacin drugs

Guan XJ et al., Preparation of polysulfone materials on nickel foam for solid-phase microextraction of floxacin in water and biological samples.
Analytical and Bioanalytical Chemistry, 409, (12), 3127-3133, (2017)
   

FLP

Barreiro R et al., Development of a HPLC-MS/MS confirmatory method for the simultaneous determination of amphenicols in baby formulas using molecularly imprinted polymers.
Analytical Methods, 5, (16), 3970-3976, (2013)
   

FLU

Díaz-Bao M et al., Evaluation of Molecularly Imprinted Polymers for the Simultaneous SPE of Six Corticosteroids in Milk.
Chromatographia, 75, (5), 223-231, (2012)
   

Flu

Song XL et al., Determination of 16 polycyclic aromatic hydrocarbons in seawater using molecularly imprinted solid-phase extraction coupled with gas chromatography-mass spectrometry.
Talanta, 99, 75-82, (2012)
   

FLU

Szultka M et al., Simultaneous determination of selected chemotherapeutics in human whole blood by molecularly imprinted polymers coated solid phase microextraction fibers and liquid chromatography-tandem mass spectrometry.
Journal of Chromatography B, 940, 66-76, (2013)
   

FLU

Moreno-González D et al., Molecularly imprinted polymer as in-line concentrator in capillary electrophoresis coupled with mass spectrometry for the determination of quinolones in bovine milk samples.
Journal of Chromatography A, 1360, 1-8, (2014)
   

FLU

Ktari N et al., Surface Acoustic Wave Sensor for Selective Detection of Flumequine.
Procedia Engineering, 120, 998-1002, (2015)
   

FLU

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)
   

FLU

Nezhadali A et al., Spectrophotometric determination of fluoxetine by molecularly imprinted polypyrrole and optimization by experimental design, artificial neural network and genetic algorithm.
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 190, 181-187, (2018)
   

FLU

Zhai HY et al., Novel coordination imprinted polymer monolithic column applied to the solid-phase extraction of flumequine from fish samples.
Journal of Chromatography B, 1118-1119, 55-62, (2019)
   

fluazuron

Teixeira RA et al., Microextraction by packed molecularly imprinted polymer followed by ultra-high performance liquid chromatography for determination of fipronil and fluazuron residues in drinking water and veterinary clinic wastewater.
Microchemical Journal, 168, Article106405-(2021)
   

flubendazole

Cacho C et al., Molecularly imprinted polymers: An analytical tool for the determination of benzimidazole compounds in water samples.
Talanta, 78, (3), 1029-1035, (2009)
   

fluconazole

Szultka M et al., Simultaneous determination of selected chemotherapeutics in human whole blood by molecularly imprinted polymers coated solid phase microextraction fibers and liquid chromatography-tandem mass spectrometry.
Journal of Chromatography B, 940, 66-76, (2013)
   

fluconazole

Manzoor S et al., Molecularly imprinted solid phase extraction of fluconazole from pharmaceutical formulations.
Talanta, 134, 1-7, (2015)
   

flucythrinate

Ji WH et al., Rapid, low temperature synthesis of molecularly imprinted covalent organic frameworks for the highly selective extraction of cyano pyrethroids from plant samples.
Analytica Chimica Acta, 1001, 179-188, (2018)
   

flufenamic acid

da Silva MS et al., Development of molecularly imprinted co-polymeric devices for controlled delivery of flufenamic acid using supercritical fluid technology.
Journal of Supercritical Fluids, 58, (1), 150-157, (2011)
   

flufenamic acid

Hoshina K et al., Simultaneous determination of non-steroidal anti-inflammatory drugs in river water samples by liquid chromatography-tandem mass spectrometry using molecularly imprinted polymers as a pretreatment column.
Journal of Pharmaceutical and Biomedical Analysis, 55, (5), 916-922, (2011)
   

FLUME

Lombardo-Agüí M et al., Comparison of different sample treatments for the analysis of quinolones in milk by capillary-liquid chromatography with laser induced fluorescence detection.
Journal of Chromatography A, 1218, (30), 4966-4971, (2011)
   

flumequin

Lu YK et al., Preparation and application of the sacrificial mesoporous silica imprinted polymers for the selective solid-phase extraction of ofloxacin residues in chicken.
Chemical Journal on Internet, 10, (6), Art. No. 106032pe-(2008)
   

flumequine

Benito-Peńa E et al., Solid-phase extraction of fluoroquinolones from aqueous samples using a water-compatible stochiometrically imprinted polymer.
Journal of Chromatography A, 1208, (1-2), 62-70, (2008)
   

flumequine

Feás X et al., Molecularly imprinted polyallylamine hydrogels: another reassessment.
Polymer International, 59, (1), 11-15, (2010)
   

flumequine

Sun XL et al., Room temperature ionic liquid-mediated molecularly imprinted polymer monolith for the selective recognition of quinolones in pork samples.
Journal of Separation Science, 33, (23-24), 3786-3793, (2010)
   

flumequine

Lombardo-Agüí M et al., Comparison of different sample treatments for the analysis of quinolones in milk by capillary-liquid chromatography with laser induced fluorescence detection.
Journal of Chromatography A, 1218, (30), 4966-4971, (2011)
   

flumequine

Blasco C et al., Development of an Improved Method for Trace Analysis of Quinolones in Eggs of Laying Hens and Wildlife Species Using Molecularly Imprinted Polymers.
Journal of Agricultural and Food Chemistry, 60, (44), 11005-11014, (2012)
   

flumequine

Moreno-González D et al., Molecularly imprinted polymer as in-line concentrator in capillary electrophoresis coupled with mass spectrometry for the determination of quinolones in bovine milk samples.
Journal of Chromatography A, 1360, 1-8, (2014)
   

Flumequine

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

flumequine

Ktari N et al., Surface Acoustic Wave Sensor for Selective Detection of Flumequine.
Procedia Engineering, 120, 998-1002, (2015)
   

flumequine

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)
   

flumequine

Zhai HY et al., Novel coordination imprinted polymer monolithic column applied to the solid-phase extraction of flumequine from fish samples.
Journal of Chromatography B, 1118-1119, 55-62, (2019)
   

flumethasone

Díaz-Bao M et al., Evaluation of Molecularly Imprinted Polymers for the Simultaneous SPE of Six Corticosteroids in Milk.
Chromatographia, 75, (5), 223-231, (2012)
   

flunitrazepam

Ariffin MM et al., Molecularly Imprinted Solid-Phase Extraction of Diazepam and Its Metabolites from Hair Samples.
Analytical Chemistry, 79, (1), 256-262, (2007)
   

Flunixin

Siewing A, The Extraction of Acid NSAIDs from Muscle Tissue using Molecularly Imprinted Polymer SPE.
The Reporter, 29, (1), 18-19, (2011)
   

flunixin

Meucci V et al., Selective and simultaneous determination of NSAIDs in equine plasma by HPLC with molecularly imprinted solid-phase extraction.
Bioanalysis, 6, (16), 2147-2158, (2014)
   

flunixin

Radi AE et al., Voltammetric Determination of Flunixin on Molecularly Imprinted Polypyrrole Modified Glassy Carbon Electrode.
Journal of Analytical Methods in Chemistry, 2016, ArticleID5296582-(2016)
   

flunixin meglumine

Meucci VM et al., Determination of phenylbutazone and flunixin meglumine in horse plasma by electro-chemical-based detection coupled to selective extraction with molecularly imprinted polymers.
Journal of Veterinary Pharmacology and Therapeutics, 35, (Supplement 3), 90-90, (2012)
   

flunixin meglumine

Meucci V et al., Determination of phenylbutazone and flunixin meglumine in equine plasma by electrochemical-based sensing coupled to selective extraction with molecularly imprinted polymers.
Sensors and Actuators B: Chemical, 179, 226-231, (2013)
   

fluometurion

Wang JC et al., Preparation of molecularly imprinted polymer and its recognition property for phenylurea herbicides.
Chemical Journal of Chinese Universities, 27, (7), 1227-1231, (2006)
   

fluoranthene

Krupadam RJ et al., Fluorescence Spectrophotometer Analysis of Polycyclic Aromatic Hydrocarbons in Environmental Samples Based on Solid Phase Extraction Using Molecularly Imprinted Polymer.
Environmental Science & Technology, 43, (8), 2871-2877, (2009)
   

fluoranthene

Song XL et al., Determination of 16 polycyclic aromatic hydrocarbons in seawater using molecularly imprinted solid-phase extraction coupled with gas chromatography-mass spectrometry.
Talanta, 99, 75-82, (2012)
   

fluoranthene

Villar-Navarro M et al., Easy, fast and environmental friendly method for the simultaneous extraction of the 16 EPA PAHs using magnetic molecular imprinted polymers (mag-MIPs).
Journal of Chromatography B, 1044-1045, 63-69, (2017)
   

fluoranthrene

Salinas-Castillo A et al., Iodinated molecularly imprinted polymer for room temperature phosphorescence optosensing of fluoranthene.
Chemical Communications, (25), 3224-3226, (2005)
   

fluoranthrene

Sánchez-Barragán I et al., Molecularly imprinted polymers based on iodinated monomers for selective room-temperature phosphorescence optosensing of fluoranthene in water.
Analytical Chemistry, 77, (21), 7005-7011, (2005)
   

fluorene

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)
   

fluorene

Krupadam RJ et al., Fluorescence Spectrophotometer Analysis of Polycyclic Aromatic Hydrocarbons in Environmental Samples Based on Solid Phase Extraction Using Molecularly Imprinted Polymer.
Environmental Science & Technology, 43, (8), 2871-2877, (2009)
   

fluorene

Song XL et al., Determination of 16 polycyclic aromatic hydrocarbons in seawater using molecularly imprinted solid-phase extraction coupled with gas chromatography-mass spectrometry.
Talanta, 99, 75-82, (2012)
   

fluorene

Yu Y et al., Polycyclic aromatic hydrocarbons in edible oils: analysis by molecularly imprinted solid-phase extraction with HPLC-FLD.
Agro FOOD Industry Hi Tech, 25, (3), 19-22, (2014)
   

fluorene

Villar-Navarro M et al., Easy, fast and environmental friendly method for the simultaneous extraction of the 16 EPA PAHs using magnetic molecular imprinted polymers (mag-MIPs).
Journal of Chromatography B, 1044-1045, 63-69, (2017)
   

fluorene-9-bisphenol

Liu ZY et al., Novel ratiometric electrochemical sensor for no-wash detection of fluorene-9-bisphenol based on combining CoN nanoarrays with molecularly imprinted polymers.
Analyst, 145, (9), 3320-3328, (2020)
   

fluorescein

Lulka MF et al., Molecular imprinting of small molecules with organic silanes: Fluorescence detection.
Analytical Letters, 30, (13), 2301-2313, (1997)
   

fluorescein

Belmont AS et al., Direct writing of molecularly imprinted microstructures using a nanofountain pen.
Applied Physics Letters, 90, (19), Art. No. 193101-(2007)
   

fluorescein

Vandevelde F et al., Direct Patterning of Molecularly Imprinted Microdot Arrays for Sensors and Biochips.
Langmuir, 23, (12), 6490-6493, (2007)
   

Fluorescein

Vandevelde F et al., Nanostructured molecularly imprinted polymer films as synthetic recognition layers.
International Journal of Nanotechnology, 5, (6-8), 757-768, (2008)
   

fluorescein

Linares AV et al., Polymer Films Composed of Surface-Bound Nanofilaments with a High Aspect Ratio, Molecularly Imprinted with Small Molecules and Proteins.
Advanced Functional Materials, 19, (8), 1299-1303, (2009)
   

fluorescein

Linares AV et al., Patterning Nanostructured, Synthetic, Polymeric Receptors by Simultaneous Projection Photolithography, Nanomolding, and Molecular Imprinting.
Small, 7, (16), 2318-2325, (2011)
   

fluorescein

Zhang ZJ et al., Improving molecularly imprinted nanogels by pH modulation.
RSC Advances, 5, (110), 91018-91025, (2015)
   

fluorescein

Grenier CJ et al., Rapid, High Affinity Binding by a Fluorescein Templated Copolymer Combining Covalent, Hydrophobic, and Acid-Base Noncovalent Crosslinks.
Sensors, 18, (5), ArticleNo1330-(2018)
   

fluorescein isothiocyanate

Hammond GD et al., Integrating Nanostructured Artificial Receptors with Whispering Gallery Mode Optical Microresonators via Inorganic Molecular Imprinting Techniques.
Biosensors, 6, (2), ArticleNo26-(2016)
   

fluorescein isothiocyanate (FITC)-labeled avidin

Orozco J et al., Molecularly Imprinted Polymer-Based Catalytic Micromotors for Selective Protein Transport.
Journal of the American Chemical Society, 135, (14), 5336-5339, (2013)
   

Fluoride ion

Samatya S et al., The effect of polystyrene as a porogen on the fluoride ion adsorption of Zr(IV) surface-immobilized resin.
Reactive and Functional Polymers, 70, (1), 63-68, (2010)
   

fluoride ion

Mizuki H et al., Zr(IV)-Immobilized Resin Prepared by Surface Template Polymerization for Fluoride Ion Removal.
Solvent Extraction and Ion Exchange, 29, (1), 146-156, (2011)
   

fluoride ion

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

fluoride ion

Nikitina VN et al., Molecular imprinting of boronate functionalized polyaniline for enzyme-free selective detection of saccharides and hydroxy acids.
Sensors and Actuators B: Chemical, 246, 428-433, (2017)
   

(4-Fluorophenyl) -2, 2-Dimethylcyclopane Carboxamide

Proceeding, Xu CM et al, Chiral Separation of R,S 3-(4-Fluorophenyl) -2,2-Dimethylcyclopane Carboxamide with Monolithic Molecularly Imprinted Polymers, 
In: Advanced Materials Research, Chen R, Sung WP, Kao JCM (Eds.), 40-43, (2013)
   

fluoroquinoline

Benito-Peńa E et al., Solid-phase extraction of fluoroquinolones from aqueous samples using a water-compatible stochiometrically imprinted polymer.
Journal of Chromatography A, 1208, (1-2), 62-70, (2008)
   

fluoroquinolines

Yan H et al., Molecularly Imprinted-Matrix Solid-Phase Dispersion for Selective Extraction of Five Fluoroquinolones in Eggs and Tissue.
Analytical Chemistry, 79, (21), 8242-8248, (2007)
   

fluoroquinolines

Liu PY et al., Determination of Fluoroquinolones in Milk by High-Performance Liquid Chromatography Using Mixed-Templates Imprinted Polymer Extraction.
Asian Journal of Chemistry, 22, (8), 6275-6288, (2010)
   

fluoroquinolines

Hu YL et al., Fiber-in-tube solid-phase microextraction with molecularly imprinted coating for sensitive analysis of antibiotic drugs by high performance liquid chromatography.
Journal of Chromatography A, 1263, 21-27, (2012)
   

fluoroquinolines

Liu PY et al., Determination of Fluoroquinolones in Grass Carp by High Performance Liquid Chromatography-Ion Trap Mass Spectrometry Using Mixed-templates Imprinted Polymer Extraction.
Chinese Journal of Analytical Chemistry, 40, (5), 693-698, (2012)
   

fluoroquinolines

Xia H et al., Determination of Three Fluoroquinolones Antibiotics Residue in Honey Using Molecularly Imprinted Solid-phase Extraction Coupled with High Performance Liquid Chromatography.
Journal of Analytical Science, 28, (3), 297-302, (2012)
   

fluoroquinolines

Xiao P et al., Synthesis and characterization of fluoroquinolone-imprinted polymeric nanoparticles.
Reactive and Functional Polymers, 72, (4), 287-293, (2012)
   

fluoroquinolines

Lee S et al., Development of isotope dilution-liquid chromatography tandem mass spectrometry for the accurate determination of fluoroquinolones in animal meat products: Optimization of chromatographic separation for eliminating matrix effects on isotope ratio measurements.
Journal of Chromatography A, 1277, 35-41, (2013)
   

Fluoroquinolines

Lv YK et al., Preparation and evaluation of a novel molecularly imprinted hybrid composite monolithic column for on-line solid-phase extraction coupled with HPLC to detect trace fluoroquinolone residues in milk.
Analytical Methods, 5, (7), 1848-1855, (2013)
   

fluoroquinolines

Tan F et al., Preparation of molecularly imprinted polymer nanoparticles for selective removal of fluoroquinolone antibiotics in aqueous solution.
Journal of Hazardous Materials, 244-245, 750-757, (2013)
   

fluoroquinolines

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

fluoroquinolines

He YH et al., Well-Defined Nanostructured Surface-Imprinted Polymers for Highly Selective Magnetic Separation of Fluoroquinolones in Human Urine.
ACS Applied Materials & Interfaces, 6, (12), 9634-9642, (2014)
   

fluoroquinolines

Sturini M et al., Environmental photochemistry of fluoroquinolones in soil and in aqueous soil suspensions under solar light.
Environmental Science and Pollution Research, 21, (23), 13215-13221, (2014)
   

fluoroquinolines

Wang H et al., Preparation of molecular imprinted microspheres based on inorganic-organic co-functional monomer for miniaturized solid-phase extraction of fluoroquinolones in milk.
Journal of Chromatography B, 949-950, 24-29, (2014)
   

fluoroquinolines

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

fluoroquinolines

Yang YF et al., Determination of nine fluoroquinolone residues in chicken by ultra performance liquid chromatography-tandem mass spectrometry coupled with molecularly imprinted solid phase extraction.
Chinese Journal of Chromatography, 34, (11), 1063-1069, (2016)
   

fluoroquinolines

Song YP et al., Dual-dummy-template molecularly imprinted polymer combining ultra performance liquid chromatography for determination of fluoroquinolones and sulfonamides in pork and chicken muscle.
Food Control, 82, 233-242, (2017)
   

fluoroquinolines

Yang K et al., Preparation of dual-template molecularly imprinted polymer coated stir bar based on computational simulation for detection of fluoroquinolones in meat.
Journal of Chromatography B, 1046, 65-72, (2017)
   

fluoroquinolines

Wei D et al., Effect of environmental factors on enhanced adsorption and photocatalytic regeneration of molecular imprinted TiO2 polymers for fluoroquinolones.
Environmental Science and Pollution Research, 25, (7), 6729-6738, (2018)
   

fluoroquinolines

Li J et al., Class-specific determination of fluoroquinolones based on a novel chemiluminescence system with molecularly imprinted polymers.
Food Chemistry, 298, Article125066-(2019)
   

fluoroquinolines

Li JM et al., Restricted access media-imprinted nanomaterials based on a metal-organic framework for highly selective extraction of fluoroquinolones in milk and river water.
Journal of Chromatography A, 1626, Article461364-(2020)
   

fluoroquinoloine antibiotics

Ton XA et al., Direct fluorimetric sensing of UV-excited analytes in biological and environmental samples using molecularly imprinted polymer nanoparticles and fluorescence polarization.
Biosensors and Bioelectronics, 36, (1), 22-28, (2012)
   

fluoroquinolone

Lu YK et al., Preparation and application of the sacrificial mesoporous silica imprinted polymers for the selective solid-phase extraction of ofloxacin residues in chicken.
Chemical Journal on Internet, 10, (6), Art. No. 106032pe-(2008)
   

fluoroquinolone

Hu ZH et al., Fabrication of ofloxacin imprinted polymer on the surface of magnetic carboxylated cellulose nanocrystals for highly selective adsorption of fluoroquinolones from water.
International Journal of Biological Macromolecules, 107, (Part A), 453-462, (2018)
   

fluoroquinolone antibiotics

Turiel E et al., Molecular imprinting-based separation methods for selective analysis of fluoroquinolones in soils.
Journal of Chromatography A, 1172, (2), 97-104, (2007)
   

fluoroquinolone antibiotics

Prieto A et al., Synthesis of a molecularly imprinted polymer and its application for microextraction by packed sorbent for the determination of fluoroquinolone related compounds in water.
Analytica Chimica Acta, 685, (2), 146-152, (2011)
   

fluoroquinolone antibiotics

Liu X et al., An electrochemically enhanced solid-phase microextraction approach based on molecularly imprinted polypyrrole/multi-walled carbon nanotubes composite coating for selective extraction of fluoroquinolones in aqueous samples.
Analytica Chimica Acta, 727, (1), 26-33, (2012)
   

fluoroquinolone antibiotics

Tang WJ et al., Preparation of hollow molecular imprinting polymer for determination of ofloxacin in milk.
Analytical Methods, 6, (10), 3309-3315, (2014)
   

fluoroquinolone antibiotics

Urraca JL et al., Multiresidue analysis of fluoroquinolone antimicrobials in chicken meat by molecularly imprinted solid-phase extraction and high performance liquid chromatography.
Journal of Chromatography A, 1343, 1-9, (2014)
   

fluoroquinolone antibiotics

Tong YK et al., Preparation of a novel magnetic molecularly imprinted polymer and its application for the determination of fluoroquinolone antibiotics.
Chinese Journal of Chromatography, 35, (3), 291-301, (2017)
   

fluoroquinolone antibiotics

Tian HJ et al., Rapid and sensitive determination of trace fluoroquinolone antibiotics in milk by molecularly imprinted polymer-coated stainless steel sheet electrospray ionization mass spectrometry.
Talanta, 219, Article121282-(2020)
   

fluoroquinolone antimicrobials

Rodríguez E et al., Multiresidue Determination of Ultratrace Levels of Fluoroquinolone Antimicrobials in Drinking and Aquaculture Water Samples by Automated Online Molecularly Imprinted Solid Phase Extraction and Liquid Chromatography.
Analytical Chemistry, 83, (6), 2046-2055, (2011)
   

fluoroquinolone drugs

Wang GN et al., Molecularly imprinted polymer-based solid phase extraction combined high performance liquid chromatography for determination of fluoroquinolones in milk.
Analytical Methods, 8, (27), 5511-5518, (2016)
   

fluoroquinolones

Sun HW et al., Simultaneous isolation of six fluoroquinolones in serum samples by selective molecularly imprinted matrix solid-phase dispersion.
Analytica Chimica Acta, 625, (2), 154-159, (2008)
   

fluoroquinolones

Benito-Peńa E et al., Water-compatible molecularly imprinted polymer for the selective recognition of fluoroquinolone antibiotics in biological samples.
Analytical and Bioanalytical Chemistry, 393, (1), 235-245, (2009)
   

fluoroquinolones

Díaz-Alvarez M et al., Selective sample preparation for the analysis of (fluoro)quinolones in baby food: molecularly imprinted polymers versus anion-exchange resins.
Analytical and Bioanalytical Chemistry, 393, (3), 899-905, (2009)
   

fluoroquinolones

Chen LG et al., Determination of fluoroquinolone antibiotics in environmental water samples based on magnetic molecularly imprinted polymer extraction followed by liquid chromatography-tandem mass spectrometry.
Analytica Chimica Acta, 662, (1), 31-38, (2010)
   

fluoroquinolones

Lombardo-Agüí M et al., Laser induced fluorescence coupled to capillary electrophoresis for the determination of fluoroquinolones in foods of animal origin using molecularly imprinted polymers.
Journal of Chromatography A, 1217, (15), 2237-2242, (2010)
   

fluoroquinolones

Zheng MM et al., Selective sample pretreatment by molecularly imprinted polymer monolith for the analysis of fluoroquinolones from milk samples.
Journal of Chromatography A, 1217, (14), 2075-2081, (2010)
   

fluoroquinolones

Qiao FX et al., Simultaneous analysis of fluoroquinolones and xanthine derivatives in serum by molecularly imprinted matrix solid-phase dispersion coupled with liquid chromatography.
Journal of Chromatography B, 879, (30), 3551-3555, (2011)
   

fluoroquinolones

Qiao JD et al., Determination of ofloxacin and lomefloxacin in chicken muscle using molecularly imprinted solid-phase extraction coupled with liquid chromatography.
Journal of Separation Science, 34, (19), 2668-2673, (2011)
   

fluoroquinolones

Rodriguez E et al., Multiresidue determination of fluoroquinolone antimicrobials in baby foods by liquid chromatography.
Food Chemistry, 127, (3), 1354-1360, (2011)
   

fluoroquinolones

Blasco C et al., Development of an Improved Method for Trace Analysis of Quinolones in Eggs of Laying Hens and Wildlife Species Using Molecularly Imprinted Polymers.
Journal of Agricultural and Food Chemistry, 60, (44), 11005-11014, (2012)
   

fluoroquinolones

Lv YK et al., Grafting of norfloxacin imprinted polymeric membranes on silica surface for the selective solid-phase extraction of fluoroquinolones in fish samples.
Talanta, 89, (1), 270-275, (2012)
   

fluoroquinolones

Sun XL et al., Novel dummy molecularly imprinted polymers for matrix solid-phase dispersion extraction of eight fluoroquinolones from fish samples.
Journal of Chromatography A, 1359, 1-7, (2014)
   

fluoroquinolones

Yang X et al., Synthesis of a novel molecularly imprinted organic-inorganic hybrid polymer for the selective isolation and determination of fluoroquinolones in tilapia.
Journal of Chromatography B, 945-946, 127-134, (2014)
   

fluoroquinolones

Zheng HB et al., Facile synthesis of magnetic molecularly imprinted polymers and its application in magnetic solid phase extraction for fluoroquinolones in milk samples.
Journal of Chromatography A, 1329, 17-23, (2014)
   

fluoroquinolones

de Oliveira HL et al., Molecularly imprinted pipette-tip solid phase extraction for selective determination of fluoroquinolones in human urine using HPLC-DAD.
Journal of Chromatography B, 1033-1034, 27-39, (2016)
   

fluoroquinolones

Mirzajani R et al., Fabrication of ciprofloxacin molecular imprinted polymer coating on a stainless steel wire as a selective solid-phase microextraction fiber for sensitive determination of fluoroquinolones in biological fluids and tablet formulation using HPLC-UV detection.
Journal of Pharmaceutical and Biomedical Analysis, 122, 98-109, (2016)
   

fluoroquinolones

Wang HW et al., Selective extraction and determination of fluoroquinolones in bovine milk samples with montmorillonite magnetic molecularly imprinted polymers and capillary electrophoresis.
Analytical and Bioanalytical Chemistry, 408, (2), 589-598, (2016)
   

fluoroquinolones

Su LM et al., Surface-imprinted magnetic nanoparticles for the selective enrichment and fast separation of fluoroquinolones in human serum.
Journal of Separation Science, 40, (10), 2269-2277, (2017)
   

fluoroquinolones

Wang GN et al., Application of molecularly imprinted polymer based matrix solid phase dispersion for determination of fluoroquinolones, tetracyclines and sulfonamides in meat.
Journal of Chromatography B, 1065, 104-111, (2017)
   

fluoroquinolones

Wang N et al., Fabrication of novel surface-imprinted magnetic graphene oxide-grafted cellulose nanocrystals for selective extraction and fast adsorption of fluoroquinolones from water.
Analytical and Bioanalytical Chemistry, 409, (28), 6643-6653, (2017)
   

fluoroquinolones

Wang YF et al., Surface-Imprinted Magnetic Carboxylated Cellulose Nanocrystals for the Highly Selective Extraction of Six Fluoroquinolones from Egg Samples.
ACS Applied Materials & Interfaces, 9, (2), 1759-1769, (2017)
   

fluoroquinolones

Zhang H et al., Internal Extractive Electrospray Ionization Mass Spectrometry for Quantitative Determination of Fluoroquinolones Captured by Magnetic Molecularly Imprinted Polymers from Raw Milk.
Scientific Reports, 7, (1), ArticleNo14714-(2017)
   

fluoroquinolones

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)
   

fluoroquinolones

Kou W et al., Fast quantification of fluoroquinolones in environmental water samples using molecularly imprinted polymers coupled with internal extractive electrospray ionization mass spectrometry.
RSC Advances, 8, (31), 17293-17299, (2018)
   

fluoroquinolones

Ma JQ et al., Preparation of molecularly imprinted hybrid mesoporous silica materials for determination of fluoroquinolone veterinary drug residues in codfish by solid-phase extraction-high performance liquid chromatography.
Journal of Food Safety and Quality, 9, (3), 540-546, (2018)
   

fluoroquinolones

Xu Y et al., Simultaneous determination of sulfonamides and fluoroquinolones from environmental water based on magnetic double-template molecularly imprinting technique.
Environmental Science and Pollution Research, 25, (16), 16121-16134, (2018)
   

fluoroquinolones

Zhang LX et al., Preparation of dummy template molecularly imprinted polymers on multi-walled carbon nanotubes as a solid-phase extraction for determination of three fluoroquinolones in milk samples.
Chinese Journal of Analysis Laboratory, 37, (5), 574-578, (2018)
   

fluoroquinolones

Barahona F et al., Molecularly imprinted polymer-hollow fiber microextraction of hydrophilic fluoroquinolone antibiotics in environmental waters and urine samples.
Journal of Chromatography A, 1587, 42-49, (2019)
   

fluoroquinolones

Lu WH et al., Dual-template molecularly imprinted polymers for dispersive solid-phase extraction of fluoroquinolones in water samples coupled with high performance liquid chromatography.
Analyst, 144, (4), 1292-1302, (2019)
   

fluoroquinolones

Shao HK et al., Preparation of molecularly imprinted hybrid monoliths for the selective detection of fluoroquinolones in infant formula powders.
Journal of Chromatography A, 1588, 33-40, (2019)
   

fluoroquinolones

Zhao SW et al., Molecularly imprinted polymer coating on metal-organic frameworks for solid-phase extraction of fluoroquinolones from water.
Journal of Separation Science, 42, (21), 3302-3310, (2019)
   

fluoroquinolones

Chiarello M et al., NanoMIP-Based Solid Phase Extraction of Fluoroquinolones from Human Urine: A Proof-of-Concept Study.
Separations, 8, (11), ArticleNo226-(2021)
   

fluoroquinolones

Dai XJ et al., Preparation of water-compatible magnetic imprinted nanospheres using heptakis (β-cyclodextrin-ionic liquid) as functional monomer for selective recognition of fluoroquinolones in water samples.
Microchemical Journal, 171, Article106793-(2021)
   

fluoro-surfactants

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

fluorouinolones

Sun HW et al., Water-compatible Molecularly Imprinted Solid Phase Extraction-HPLC for Determination of Fluorouinolones Residues in Chicken.
Food Science, 30, (8), 151-154, (2009)
   

5-fluorouracil

Kugimiya A et al., Synthesis of 5-fluorouracil-imprinted polymers with multiple hydrogen bonding interactions.
Analyst, 126, (6), 772-774, (2001)
   

5-fluorouracil

Puoci F et al., Molecularly imprinted polymers for 5-fluorouracil release in biological fluids.
Molecules, 12, (4), 805-814, (2007)
   

5-fluorouracil

Singh B et al., Preliminary evaluation of molecular imprinting of 5-fluorouracil within hydrogels for use as drug delivery systems.
Acta Biomaterialia, 4, (5), 1244-1254, (2008)
   

5-fluorouracil

Cirillo G et al., Imprinted hydrophilic nanospheres as drug delivery systems for 5-fluorouracil sustained release.
Journal of Drug Targeting, 17, (1), 72-77, (2009)
   

5-fluorouracil

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

5-fluorouracil

Prasad BB et al., Development of Uracil and 5-Fluorouracil Sensors Based on Molecularly Imprinted Polymer-Modified Hanging Mercury Drop Electrode.
Sensors and Materials, 21, (6), 291-306, (2009)
   

5-fluorouracil

Men JY et al., Preparation of 5-Fluorouracil-Surface Imprinted Microspheres MIP-PSSS/CPVA and Studies on its Character of Colon-Specific Drug Delivery.
Acta Chimica Sinica, 70, (21), 2273-2280, (2012)
   

5-fluorouracil

Prasad BB et al., Nonhydrolytic sol-gel derived imprinted polymer-multiwalled carbon nanotubes composite fiber sensors for electrochemical sensing of uracil and 5-fluorouracil.
Electrochimica Acta, 71, (1), 106-115, (2012)
   

5-fluorouracil

Huynh TP et al., Molecularly Imprinted Polymer for Recognition of 5-Fluorouracil by RNA-type Nucleobase Pairing.
Analytical Chemistry, 85, (17), 8304-8312, (2013)
   

5-fluorouracil

Kan WT et al., Mathematical modeling and sustained release property of a 5-fluorouracil imprinted vehicle.
European Polymer Journal, 49, (12), 4167-4175, (2013)
   

5-fluorouracil

Çetin K et al., 5-Fluorouracil delivery from metal-ion mediated molecularly imprinted cryogel discs.
Colloids and Surfaces B: Biointerfaces, 126, 401-406, (2015)
   

5-fluorouracil

Li LF et al., Preparation and characterization of 5-fluorouracil surface-imprinted thermosensitive magnetic microspheres.
Monatshefte für Chemie - Chemical Monthly, 146, (3), 441-447, (2015)
   

5-fluorouracil

Prasad BB et al., Development of molecularly imprinted polymer nanoarrays of N-acryloyl-2-mercaptobenzamide on a silver electrode for ultratrace sensing of uracil and 5-fluorouracil.
Journal of Materials Chemistry B, 3, (28), 5864-5876, (2015)
   

5-fluorouracil

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)
   

5-fluorouracil

Hashemi-Moghaddam H et al., Evaluation of magnetic nanoparticles coated by 5-fluorouracil imprinted polymer for controlled drug delivery in mouse breast cancer model.
International Journal of Pharmaceutics, 497, (1-2), 228-238, (2016)
   

5-fluorouracil

Li LF et al., Temperature and magnetism bi-responsive molecularly imprinted polymers: Preparation, adsorption mechanism and properties as drug delivery system for sustained release of 5-fluorouracil.
Materials Science and Engineering: C, 61, 158-168, (2016)
   

5-fluorouracil

Oliveira D et al., Modeling RAFT Gelation and Grafting of Polymer Brushes for the Production of Molecularly Imprinted Functional Particles.
Macromolecular Symposia, 370, (1), 52-65, (2016)
   

5-fluorouracil

Oliveira D et al., Development of high performance and facile to pack molecularly imprinted particles for aqueous applications.
Biochemical Engineering Journal, 111, 87-99, (2016)
   

5-fluorouracil

Oliveira D et al., Molecular imprinting of 5-fluorouracil in particles with surface RAFT grafted functional brushes.
Reactive and Functional Polymers, 107, 35-45, (2016)
   

5-fluorouracil

Zheng XF et al., Surface Molecularly Imprinted Polymer of Chitosan Grafted Poly(methyl methacrylate) for 5-Fluorouracil and Controlled Release.
Scientific Reports, 6, ArticleNo21409-(2016)
   

5-fluorouracil

Zhang L et al., Recognition of 5-fluorouracil by thermosensitive magnetic surface molecularly imprinted microspheres designed using a computational approach.
Journal of Applied Polymer Science, 134, (43), ArticleNo45468-(2017)
   

5-fluorouracil

Madadian-Bozorg N et al., Poly (methacrylic acid)-based molecularly imprinted polymer nanoparticles containing 5-fluourouracil used in colon cancer therapy potentially.
Polymers for Advanced Technologies, 29, (8), 2401-2409, (2018)
   

5-fluorouracil

Cairo P et al., 110th Anniversary: Selective Recognition of 5-Fluorouracil with Molecular Imprinting Membranes: Molecular Details.
Industrial & Engineering Chemistry Research, 58, (34), 15497-15505, (2019)
   

5-fluorouracil

Talavat L et al., Thermodynamic computational calculations for preparation 5-fluorouracil magnetic moleculary imprinted polymers and their application in controlled drug release.
Inorganic Chemistry Communications, 103, 119-127, (2019)
   

5-fluoruracil

Kan WT et al., Molecularly imprinted polymer hydrogel as 5-FU controlled release carrier.
Chemical Industry and Engineering Progress, 32, (3), 627-633, (2013)
   

fluoxetine

Demeestere K et al., Trace analysis of antidepressants in environmental waters by molecularly imprinted polymer-based solid-phase extraction followed by ultra-performance liquid chromatography coupled to triple quadrupole mass spectrometry.
Analytical and Bioanalytical Chemistry, 396, (2), 825-837, (2010)
   

fluoxetine

Morais EC et al., Silica imprinted materials containing pharmaceuticals as a template: textural aspects.
Journal of Sol-Gel Science and Technology, 64, (2), 324-334, (2012)
   

fluoxetine

Morais EC et al., The interaction of encapsulated pharmaceutical drugs with a silica matrix.
Colloids and Surfaces B: Biointerfaces, 103, 422-429, (2013)
   

fluoxetine

Morais EC et al., Selective silica-based sorbent materials synthesized by molecular imprinting for adsorption of pharmaceuticals in aqueous matrices.
Journal of Separation Science, 36, (3), 636-643, (2013)
   

fluoxetine

Alizadeh T et al., Graphene/graphite paste electrode incorporated with molecularly imprinted polymer nanoparticles as a novel sensor for differential pulse voltammetry determination of fluoxetine.
Biosensors and Bioelectronics, 81, 198-206, (2016)
   

fluoxetine

da Silva KKMS et al., On-Line Restricted Access Molecularly Imprinted Solid-Phase Extraction of Selective Serotonin Reuptake Inhibitors Directly from Untreated Human Plasma Samples Followed by HPLC-UV Analysis.
Journal of Analytical Toxicology, 40, (2), 108-116, (2016)
   

fluoxetine

Barati A et al., Synthesis/characterization of molecular imprinted polymer based on magnetic chitosan/graphene oxide for selective separation/preconcentration of fluoxetine from environmental and biological samples.
Journal of Industrial and Engineering Chemistry, 46, 212-221, (2017)
   

fluoxetine

Nezhadali A et al., Spectrophotometric determination of fluoxetine by molecularly imprinted polypyrrole and optimization by experimental design, artificial neural network and genetic algorithm.
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 190, 181-187, (2018)
   

fluoxetine

Hudson AD et al., Synthesis of Optimized Molecularly Imprinted Polymers for the Isolation and Detection of Antidepressants via HPLC.
Biomimetics, 4, (1), ArticleNo18-(2019)
   

fluoxetine

Feroz M et al., A novel molecular imprinted polymer layer electrode for enhanced sensitivity electrochemical determination of the antidepressant fluoxetine.
Journal of Electroanalytical Chemistry, 878, Article114693-(2020)
   

flurbiprofen

Braga MEM et al., Improved drug loading/release capacities of commercial contact lenses obtained by supercritical fluid assisted molecular imprinting methods.
Journal of Controlled Release, 148, (1), e102-e104, (2010)
   

flurbiprofen

Yańez F et al., Supercritical fluid-assisted preparation of imprinted contact lenses for drug delivery.
Acta Biomaterialia, 7, (3), 1019-1030, (2011)
   

flurbiprofen

Li WX et al., A nanocomposite consisting of an amorphous seed and a molecularly imprinted covalent organic framework shell for extraction and HPLC determination of nonsteroidal anti-inflammatory drugs.
Microchimica Acta, 186, (2), Article76-(2019)
   

5-flurouracil

Gardouh AR et al., Antitumor activity of a molecularly imprinted nanopreparation of 5-flurouracil against Ehrlich’s carcinoma solid tumors grown in mice: Comparison to free 5-flurouracil.
Chemico-Biological Interactions, 295, 52-63, (2018)
   

fluroxypyr

Tan SJ et al., A dummy molecularly imprinted solid-phase extraction coupled with liquid chromatography-tandem mass spectrometry for selective determination of four pyridine carboxylic acid herbicides in milk.
Journal of Chromatography B, 1108, 65-72, (2019)
   

flutamide

Kadivar M et al., A molecularly imprinted poly 2-aminophenol-gold nanoparticle-reduced graphene oxide composite for electrochemical determination of flutamide in environmental and biological samples.
Analytical Methods, 13, (4), 536-551, (2021)
   

flutriafol

Hu YL et al., Synthesis and application of a novel molecularly imprinted polymer-coated stir bar for microextraction of triazole fungicides in soil.
Journal of Separation Science, 34, (10), 1190-1197, (2011)
   

flu virus

Wangchareansak T et al., A novel approach to identify molecular binding to the influenza virus H5N1: screening using molecularly imprinted polymers (MIPs).
MedChemComm, 5, (5), 617-621, (2014)
   

fluvoxamine

da Silva KKMS et al., On-Line Restricted Access Molecularly Imprinted Solid-Phase Extraction of Selective Serotonin Reuptake Inhibitors Directly from Untreated Human Plasma Samples Followed by HPLC-UV Analysis.
Journal of Analytical Toxicology, 40, (2), 108-116, (2016)
   

fluxapyroxad

Shi L et al., One-step Synthesis of Ultrasmall Platinum Nanoparticles Supported on Amino-Functionalized Graphene to Create an Electrochemical Molecularly Imprinted Polymer Sensor for Fluxapyroxad.
International Journal of Electrochemical Science, 16, Article210767-(2021)
   

FLU-Zn2+

Zhai HY et al., Novel coordination imprinted polymer monolithic column applied to the solid-phase extraction of flumequine from fish samples.
Journal of Chromatography B, 1118-1119, 55-62, (2019)
   

FM

Li SH et al., Selective detection of fenaminosulf via a molecularly imprinted fluorescence switch and silver nano-film amplification.
Biosensors and Bioelectronics, 71, 342-347, (2015)
   

FMDV

Jenik M et al., Sensing Picornaviruses Using Molecular Imprinting Techniques on a Quartz Crystal Microbalance.
Analytical Chemistry, 81, (13), 5320-5326, (2009)
   

FMDV

Hussein HA et al., Designing and fabrication of new VIP biosensor for the rapid and selective detection of foot-and-mouth disease virus (FMDV).
Biosensors and Bioelectronics, 141, Article111467-(2019)
   

Fmoc-Cys(SH)-OH

Burri HVR et al., An Assay Study of Molecular Recognition of Amino Acids in Water: Covalent Imprinting of Cysteine.
Journal of Biomedical Science and Engineering, 8, (12), 805-814, (2015)
   

Fmoc-DL-Trp

Huang XD et al., Short columns with molecularly imprinted monolithic stationary phases for rapid separation of diastereomers and enantiomers.
Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 804, (1), 13-18, (2004)
   

Fmoc-D-Trp

Kim H et al., Mass transfer kinetics on the heterogeneous binding sites of molecularly imprinted polymers.
Chemical Engineering Science, 60, (20), 5425-5444, (2005)
   

Fmoc-D-Trp

Kim H et al., Comparison of the thermodynamic properties of particulate and monolithic columns of molecularly imprinted copolymers.
Analytical Chemistry, 77, (1), 93-102, (2005)
   

Fmoc-D-tryptophan

Kim H et al., Mass transfer kinetics on the heterogeneous binding sites of molecularly imprinted polymers.
Chemical Engineering Science, 60, (20), 5425-5444, (2005)
   

Fmoc-D-tryptophan

Kim H et al., Comparison of the thermodynamic properties of particulate and monolithic columns of molecularly imprinted copolymers.
Analytical Chemistry, 77, (1), 93-102, (2005)
   

Fmoc-L-histidine

Yilmaz E et al., Studies towards enantioselective surface imprinted polymers.
Journal of Separation Science, 32, (19), 3274-3277, (2009)
   

Fmoc-L-Trp

Kim H et al., Thermodynamic functions and intraparticle mass transfer kinetics of structural analogues of a template on molecularly imprinted polymers in liquid chromatography.
Journal of Chromatography A, 1097, (1-2), 84-97, (2005)
   

Fmoc-(L)-Trp

Kim H et al., Adsorption on molecularly imprinted polymers of structural analogues of a template. single-component adsorption isotherm data.
Analytical Chemistry, 77, (19), 6415-6425, (2005)
   

Fmoc-L-Trp

Kim H et al., Mass transfer kinetics on the heterogeneous binding sites of molecularly imprinted polymers.
Chemical Engineering Science, 60, (20), 5425-5444, (2005)
   

Fmoc-L-Trp

Kim H et al., Thermodynamic studies of the solvent effects in chromatography on molecularly imprinted polymers. 3. Nature of the organic mobile phase.
Analytical Chemistry, 77, (8), 2496-2504, (2005)
   

Fmoc-L-Trp

Kim H et al., Thermodynamics and mass transfer kinetics in molecularly imprinted polymers.
Polymer Preprints, 46, (2), 1178-1179, (2005)
   

Fmoc-L-Trp

Kim H et al., Comparison of the thermodynamic properties of particulate and monolithic columns of molecularly imprinted copolymers.
Analytical Chemistry, 77, (1), 93-102, (2005)
   

Fmoc-L-Trp

Kim H et al., Thermodynamic studies on solvent effects in molecularly imprinted polymers. 2. Concentration of the organic modifier.
Analytical Chemistry, 77, (6), 1718-1726, (2005)
   

Fmoc-L-Trp

Kim H et al., Thermodynamic studies on the solvent effects in chromatography on molecularly imprinted polymers. 1. Nature of the organic modifier.
Analytical Chemistry, 77, (6), 1708-1717, (2005)
   

Fmoc-L-Trp

Kim H et al., Intraparticle mass transfer kinetics on molecularly imprinted polymers of structural analogues of a template.
Chemical Engineering Science, 61, (4), 1122-1137, (2006)
   

Fmoc-L-Trp

Kim H et al., Thermodynamic analysis of the heterogenous binding sites of molecularly imprinted polymers.
Journal of Chromatography A, 1101, (1-2), 136-152, (2006)
   

Fmoc-L-Trp

Kim H et al., Isotherm parameters and intraparticle mass transfer kinetics on molecularly imprinted polymers in acetonitrile/buffer mobile phases.
Chemical Engineering Science, 61, (16), 5249-5267, (2006)
   

Fmoc-L-tryptophan

Kim H et al., Thermodynamic functions and intraparticle mass transfer kinetics of structural analogues of a template on molecularly imprinted polymers in liquid chromatography.
Journal of Chromatography A, 1097, (1-2), 84-97, (2005)
   

Fmoc-L-tryptophan

Kim H et al., Adsorption on molecularly imprinted polymers of structural analogues of a template. single-component adsorption isotherm data.
Analytical Chemistry, 77, (19), 6415-6425, (2005)
   

Fmoc-L-tryptophan

Kim H et al., Mass transfer kinetics on the heterogeneous binding sites of molecularly imprinted polymers.
Chemical Engineering Science, 60, (20), 5425-5444, (2005)
   

Fmoc-L-tryptophan

Kim H et al., Thermodynamic studies of the solvent effects in chromatography on molecularly imprinted polymers. 3. Nature of the organic mobile phase.
Analytical Chemistry, 77, (8), 2496-2504, (2005)
   

Fmoc-L-tryptophan

Kim H et al., Thermodynamics and mass transfer kinetics in molecularly imprinted polymers.
Polymer Preprints, 46, (2), 1178-1179, (2005)
   

Fmoc-L-tryptophan

Kim H et al., Comparison of the thermodynamic properties of particulate and monolithic columns of molecularly imprinted copolymers.
Analytical Chemistry, 77, (1), 93-102, (2005)
   

Fmoc-L-tryptophan

Kim H et al., Thermodynamic studies on solvent effects in molecularly imprinted polymers. 2. Concentration of the organic modifier.
Analytical Chemistry, 77, (6), 1718-1726, (2005)
   

Fmoc-L-tryptophan

Kim H et al., Thermodynamic studies on the solvent effects in chromatography on molecularly imprinted polymers. 1. Nature of the organic modifier.
Analytical Chemistry, 77, (6), 1708-1717, (2005)
   

Fmoc-L-Tryptophan

Kim H et al., Intraparticle mass transfer kinetics on molecularly imprinted polymers of structural analogues of a template.
Chemical Engineering Science, 61, (4), 1122-1137, (2006)
   

Fmoc-L-tryptophan

Kim H et al., Thermodynamic analysis of the heterogenous binding sites of molecularly imprinted polymers.
Journal of Chromatography A, 1101, (1-2), 136-152, (2006)
   

Fmoc-L-tryptophan

Kim H et al., Isotherm parameters and intraparticle mass transfer kinetics on molecularly imprinted polymers in acetonitrile/buffer mobile phases.
Chemical Engineering Science, 61, (16), 5249-5267, (2006)
   

Fmoc-3-nitrotyrosine

Scorrano S et al., Synthesis of Molecularly Imprinted Polymers for Amino Acid Derivates by Using Different Functional Monomers.
International Journal of Molecular Sciences, 12, (3), 1735-1743, (2011)
   

Fmoc-3NT

Scorrano S et al., Synthesis of Molecularly Imprinted Polymers for Amino Acid Derivates by Using Different Functional Monomers.
International Journal of Molecular Sciences, 12, (3), 1735-1743, (2011)
   

Fmoc-phosphoserine-ethyl ester

Wierzbicka C et al., Cationic pTyr/pSer imprinted polymers based on a bis-imidazolium host monomer: phosphopeptide recognition in aqueous buffers demonstrated by [mu]-liquid chromatography and monolithic columns.
Journal of Materials Chemistry B, 5, (5), 953-960, (2017)
   

Fmoc-phosphotyrosine-ethyl ester

Wierzbicka C et al., Cationic pTyr/pSer imprinted polymers based on a bis-imidazolium host monomer: phosphopeptide recognition in aqueous buffers demonstrated by [mu]-liquid chromatography and monolithic columns.
Journal of Materials Chemistry B, 5, (5), 953-960, (2017)
   

Fmoc-pTyr-OEt

Wan W et al., Ratiometric Fluorescence Detection of Phosphorylated Amino Acids Through Excited-State Proton Transfer by Using Molecularly Imprinted Polymer (MIP) Recognition Nanolayers.
Chemistry - A European Journal, 23, (63), 15974-15983, (2017)
   

FMRF amide

Lin CC et al., A novel monolithic column for capillary electrochromatographic separation of oligopeptides.
Analytica Chimica Acta, 572, (2), 197-204, (2006)
   

FN

Fukazawa K et al., Fabrication of a cell-adhesive protein imprinting surface with an artificial cell membrane structure for cell capturing.
Biosensors and Bioelectronics, 25, (3), 609-614, (2009)
   

FN

Fukazawa K et al., Molecular-NANOintegrated surface for selective protein recognition by molecular imprinting concept.
European Cells and Materials, 20, (Suppl 3), 86-86, (2010)
   

FN

Zhu DW et al., Polypropylene non-woven supported fibronectin molecular imprinted calcium alginate/polyacrylamide hydrogel film for cell adhesion.
Chinese Chemical Letters, 26, (6), 807-810, (2015)
   

FNT

Pereira LA et al., Molecularly imprinted solid-phase extraction for the determination of fenitrothion in tomatoes.
Analytical and Bioanalytical Chemistry, 393, (3), 1063-1072, (2009)
   

FNT

de Barros LA et al., A selective molecularly imprinted polymer-solid phase extraction for the determination of fenitrothion in tomatoes.
Analytical and Bioanalytical Chemistry, 397, (3), 1355-1361, (2010)
   

FNT

Bazmandegan-Shamili A et al., MultiSimplex optimization of the dispersive solid-phase microextraction and determination of fenitrothion by magnetic molecularly imprinted polymer and high-performance liquid chromatography.
Journal of the Iranian Chemical Society, 15, (5), 1181-1189, (2018)
   

FNX

Meucci V et al., Determination of phenylbutazone and flunixin meglumine in equine plasma by electrochemical-based sensing coupled to selective extraction with molecularly imprinted polymers.
Sensors and Actuators B: Chemical, 179, 226-231, (2013)
   

folacin

Prasad BB et al., Development of a highly sensitive and selective hyphenated technique (molecularly imprinted micro-solid phase extraction fiber-molecularly imprinted polymer fiber sensor) for ultratrace analysis of folic acid.
Analytica Chimica Acta, 662, (1), 14-22, (2010)
   

folate

Prasad BB et al., Development of a highly sensitive and selective hyphenated technique (molecularly imprinted micro-solid phase extraction fiber-molecularly imprinted polymer fiber sensor) for ultratrace analysis of folic acid.
Analytica Chimica Acta, 662, (1), 14-22, (2010)
   

folate

Duan LK et al., Selective Binding of Folic Acid and Derivatives by Imprinted Nanoparticle Receptors in Water.
Bioconjugate Chemistry, 29, (4), 1438-1445, (2018)
   

folic acid

Hall AJ et al., Polymeric Receptors for the Recognition of Folic Acid and Related Compounds via Substructure Imprinting.
Analytical Chemistry, 78, (24), 8362-8367, (2006)
   

folic acid

Apodaca DC et al., Electropolymerized Molecularly Imprinted Polymer Films of a Bis-Terthiophene Dendron: Folic Acid Quartz Crystal Microbalance Sensing.
ACS Applied Materials & Interfaces, 3, (2), 191-203, (2010)
   

folic acid

Donato L et al., Molecularly Imprinted Membranes with Affinity Properties for Folic Acid.
Separation Science and Technology, 45, (16), 2373-2379, (2010)
   

folic acid

Prasad BB et al., Imprinted polymer-carbon consolidated composite fiber sensor for substrate-selective electrochemical sensing of folic acid.
Biosensors and Bioelectronics, 25, (9), 2140-2148, (2010)
   

folic acid

Prasad BB et al., Electrochemical sensor for folic acid based on a hyperbranched molecularly imprinted polymer-immobilized sol-gel-modified pencil graphite electrode.
Sensors and Actuators B: Chemical, 146, (1), 321-330, (2010)
   

folic acid

Prasad BB et al., Development of a highly sensitive and selective hyphenated technique (molecularly imprinted micro-solid phase extraction fiber-molecularly imprinted polymer fiber sensor) for ultratrace analysis of folic acid.
Analytica Chimica Acta, 662, (1), 14-22, (2010)
   

folic acid

Madhuri R et al., Biomimetic piezoelectric quartz sensor for folic acid based on a molecular imprinting technology.
Advanced Materials Letters, 2, (4), 264-267, (2011)
   

folic acid

Lieberzeit PA et al., MIP Sensors on the Way to Biotech Application: Selectivity and Ruggedness.
Procedia Engineering, 47, 534-537, (2012)
   

folic acid

Advincula R, Electropolymerized Molecularly Imprinted Polymer (E-MIP) Sensors.
ECS Meeting Abstracts, MA2013-01, (44), 1465-1465, (2013)
   

folic acid

Hussain M et al., Acidic and basic polymers for molecularly imprinted folic acid sensors - QCM studies with thin films and nanoparticles.
Sensors and Actuators B: Chemical, 176, 1090-1095, (2013)
   

folic acid

Karimian N et al., On/off-switchable electrochemical folic acid sensor based on molecularly imprinted polymer electrode.
Electrochemistry Communications, 36, 92-95, (2013)
   

folic acid

Pereira AV et al., Do voltammetry electrodes modified with MIPs really work? The role of large molecules: folic acid as a probe.
Analytical Methods, 6, (17), 6658-6667, (2014)
   

folic acid

Ahmad R et al., Water-soluble plasmonic nanosensors with synthetic receptors for label-free detection of folic acid.
Chemical Communications, 51, (47), 9678-9681, (2015)
   

folic acid

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)
   

folic acid

Areerob Y et al., Core-shell SiO2-coated Fe3O4 with a surface molecularly imprinted polymer coating of folic acid and its applicable magnetic solid-phase extraction prior to determination of folates in tomatoes.
Journal of Separation Science, 39, (15), 3037-3045, (2016)
   

folic acid

de Oliveira FM et al., Hybrid molecularly imprinted poly(methacrylic acid-TRIM)-silica chemically modified with (3-glycidyloxypropyl)trimethoxysilane for the extraction of folic acid in aqueous medium.
Materials Science and Engineering: C, 59, 643-651, (2016)
   

folic acid

de Oliveira FM et al., Evaluation of a new water-compatible hybrid molecularly imprinted polymer combined with restricted access for the selective recognition of folic acid in binding assays.
Journal of Applied Polymer Science, 133, (21), ArticleNo43463-(2016)
   

folic acid

Hussain S et al., A novel core@shell magnetic molecular imprinted nanoparticles for selective determination of folic acid in different food samples.
Reactive and Functional Polymers, 106, 51-56, (2016)
   

folic acid

Oliveira FM et al., Preparation of a new restricted access molecularly imprinted hybrid adsorbent for the extraction of folic acid from milk powder samples.
Analytical Methods, 8, (3), 656-665, (2016)
   

folic acid

Wang C et al., DNA based signal amplified molecularly imprinted polymer electrochemical sensor for multiplex detection.
RSC Advances, 6, (55), 49597-49603, (2016)
   

folic acid

Yang YQ et al., One-pot synthesis of quantum dot-labeled hydrophilic molecularly imprinted polymer nanoparticles for direct optosensing of folic acid in real, undiluted biological samples.
Biosensors and Bioelectronics, 86, 580-587, (2016)
   

folic acid

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)
   

folic acid

Duan LK et al., Selective Binding of Folic Acid and Derivatives by Imprinted Nanoparticle Receptors in Water.
Bioconjugate Chemistry, 29, (4), 1438-1445, (2018)
   

folic acid

Gültekin A et al., Gadolinium chelate monomer based memories onto QCM electrodes for folic acid detection in commercial follow-on baby milk.
Journal of Food Measurement and Characterization, 12, (4), 2892-2898, (2018)
   

folic acid

Kuceki M et al., Selective and sensitive voltammetric determination of folic acid using graphite/restricted access molecularly imprinted poly(methacrylic acid)/SiO2 composite.
Journal of Electroanalytical Chemistry, 818, 223-230, (2018)
   

folic acid

Panjan P et al., Development of a folic acid molecularly imprinted polymer and its evaluation as a sorbent for dispersive solid-phase extraction by liquid chromatography coupled to mass spectrometry.
Journal of Chromatography A, 1576, 26-33, (2018)
   

folic acid

Güney S, Electrochemical synthesis of molecularly imprinted poly(p-aminobenzene sulphonic acid) on carbon nanodots coated pencil graphite electrode for selective determination of folic acid.
Journal of Electroanalytical Chemistry, 854, Article113518-(2019)
   

folic acid

Hussain S et al., Facile preparation of molybdenum carbide (Mo2C) nanoparticles and its effective utilization in electrochemical sensing of folic acid via imprinting.
Biosensors and Bioelectronics, 140, Article111330-(2019)
   

folic acid

Zengin A et al., Preparation of molecularly imprinted PDMS elastomer for selective detection of folic acid in orange juice.
Applied Surface Science, 471, 168-175, (2019)
   

folic acid

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

folic acid

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

folimat

Xin JH et al., Simultaneous separation and determination of eight organophosphorous pesticide residues in vegetables through molecularly imprinted solid-phase extraction coupled to gas chromatography.
Journal of Separation Science, 35, (24), 3501-3508, (2012)
   

FOM

Wang PL et al., Synthesis of ractopamine molecularly imprinted membrane and its application in the rapid determination of three β-agonists in porcine urine samples.
Journal of Separation Science, 36, (8), 1455-1462, (2013)
   

fomesafen

Jin XY et al., Synthesis and Characterization of Fomesafen Imprinted Polymers.
Journal of Macromolecular Science, Part A, 52, (4), 316-321, (2015)
   

fondaparinux

Mothéré M et al., Poly(ethylene glycol acrylate)-functionalized hydrogels for heparan sulfate oligosaccharide recognition.
Journal of Molecular Recognition, 30, (3), ArticleNo:e2584-(2017)
   

foot-and-mouth disease virus

Jenik M et al., Sensing Picornaviruses Using Molecular Imprinting Techniques on a Quartz Crystal Microbalance.
Analytical Chemistry, 81, (13), 5320-5326, (2009)
   

foot and mouth disease virus

Hussein HA et al., Designing and fabrication of new VIP biosensor for the rapid and selective detection of foot-and-mouth disease virus (FMDV).
Biosensors and Bioelectronics, 141, Article111467-(2019)
   

forchlorfenuron

Cheng Y et al., A molecularly imprinted polymer synthesized using β-cyclodextrin as the monomer for the efficient recognition of forchlorfenuron in fruits.
Analytical and Bioanalytical Chemistry, 409, (21), 5065-5072, (2017)
   

Form

Fiori M et al., Evaluation of two different clean-up steps, to minimise ion suppression phenomena in ion trap liquid chromatography-tandem mass spectrometry for the multi-residue analysis of β-agonists in calves urine.
Analytica Chimica Acta, 529, (1-2), 207-210, (2005)
   

FORM

Wang PL et al., Determination of β2-Agonists in Porcine Urine by Molecularly Imprinted Solid Phase Extraction Followed Ultra-Performance Liquid Chromatography-Tandem Mass Spectrometry Detection.
Analytical Letters, 46, (5), 734-744, (2013)
   

formaldehyde

Feng LA et al., The fabrication and characterization of a formaldehyde odor sensor using molecularly imprinted polymers.
Journal of Colloid and Interface Science, 284, (2), 378-382, (2005)
   

formaldehyde

Wu N et al., An optical reflected device using a molecularly imprinted polymer film sensor.
Analytica Chimica Acta, 653, (1), 103-108, (2009)
   

formaldehyde

Lou DW et al., Preparation of Formaldehyde Molecularly Imprinted Polymer Beads and Its Application in Needle Trap Extraction Coupled to Gas Chromatography.
Journal of Analytical Science, 27, (6), 723-726, (2011)
   

formaldehyde

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

formaldehyde

Iqbal N et al., Layer-by-layer assembly of low-temperature-imprinted poly(methacrylic acid)/gold nanoparticle hybrids for gaseous formaldehyde mass sensing.
RSC Advances, 4, (81), 43121-43130, (2014)
   

formaldehyde

Li H et al., Investigation on Gas Phase Recognition for Metal-Ion Mediated Formaldehyde Imprinted Polymer by Inversed Phase Gas Chromatography.
Chinese Journal of Analytical Chemistry, 42, (6), 885-890, (2014)
   

formaldehyde

Zhang YM et al., A highly sensitive and selective formaldehyde gas sensor using a molecular imprinting technique based on Ag-LaFeO3.
Journal of Materials Chemistry C, 2, (47), 10067-10072, (2014)
   

formaldehyde

Dai H et al., An electrochemical impedimetric sensor based on biomimetic electrospun nanofibers for formaldehyde.
Analyst, 140, (2), 582-589, (2015)
   

formaldehyde

Wu YC et al., Preparation and Properties of Formaldehyde Molecularly Imprinted Polymer and Its Application in Detectiong Formaldehyde in Aquatic Product.
Chinese Journal of Applied Chemistry, 32, (1), 104-109, (2015)
   

formaldehyde

Zhang YM et al., A sensor device with specific recognition sites for formaldehyde based on molecular imprinting technique.
IOP Conference Series: Materials Science and Engineering, 87, (1), ArticleNo012116-(2015)
   

formaldehyde

Afzal A et al., A collaborative effect of imprinted polymers and Au nanoparticles on bioanalogous detection of organic vapors.
Sensors and Actuators B: Chemical, 231, 431-439, (2016)
   

formaldehyde

Proceeding, González-Vila Á et al, Formaldehyde sensing with plasmonic near-infrared optical fiber grating sensors, 
ArticleNo989917, (2016)
   

formaldehyde

Hussain M et al., Molecularly Imprinted Polymer Nanoparticles for Formaldehyde Sensing with QCM.
Sensors, 16, (7), ArticleNo1011-(2016)
   

formaldehyde

Proceeding, Debliquy M et al, Molecularly Imprinted Polymers for VOC Sensing: chemoresistive and optical Sensors, 
(2017)
   

formaldehyde

González-Vila Á et al., Molecularly imprinted electropolymerization on a metal-coated optical fiber for gas sensing applications.
Sensors and Actuators B: Chemical, 244, 1145-1151, (2017)
   

formaldehyde

Tang XH et al., A Formaldehyde Sensor Based on Molecularly-Imprinted Polymer on a TiO2 Nanotube Array.
Sensors, 17, (4), ArticleNo675-(2017)
   

formaldehyde

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

formaldehyde

Fu DL et al., A molecularly imprinted electrochemical sensing platform based on the signal amplification system fabricated with the theoretically optimized monomer for specific determination of formaldehyde.
Sensors and Actuators B: Chemical, 344, Article130260-(2021)
   

formaldehyde

Liu J et al., Theoretical design and preparation of molecularly imprinted polymers of formaldehyde and acrylamide.
Journal of Polymer Research, 28, (11), 433-(2021)
   

formaldehyde

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

formaterol

Wang PL et al., Determination of β2-Agonists in Porcine Urine by Molecularly Imprinted Solid Phase Extraction Followed Ultra-Performance Liquid Chromatography-Tandem Mass Spectrometry Detection.
Analytical Letters, 46, (5), 734-744, (2013)
   

formononetin

Zhang YZ et al., Preparation and evaluation of temperature and magnetic dual-responsive molecularly imprinted polymers for the specific enrichment of formononetin.
Journal of Separation Science, 41, (15), 3060-3068, (2018)
   

formoterol

Fiori M et al., Evaluation of two different clean-up steps, to minimise ion suppression phenomena in ion trap liquid chromatography-tandem mass spectrometry for the multi-residue analysis of β-agonists in calves urine.
Analytica Chimica Acta, 529, (1-2), 207-210, (2005)
   

formoterol

Wang PL et al., Synthesis of ractopamine molecularly imprinted membrane and its application in the rapid determination of three β-agonists in porcine urine samples.
Journal of Separation Science, 36, (8), 1455-1462, (2013)
   

fossil gelatin

Elster H, 3. Easier access to "fossil gelatin" and quality check by amino acid racemization.
Palaeogeography, Palaeoclimatology, Palaeoecology, 526, 43-52, (2019)
   

FP

Pu JZ et al., Preparation and Selective Adsorption Study on the Molecular Imprinted Polymeric Microspheres of Felodipine.
Journal of Anhui Agricultural Sciences, 37, (24), 11369-11371,11387, (2009)
   

FP

Shi L et al., One-step Synthesis of Ultrasmall Platinum Nanoparticles Supported on Amino-Functionalized Graphene to Create an Electrochemical Molecularly Imprinted Polymer Sensor for Fluxapyroxad.
International Journal of Electrochemical Science, 16, Article210767-(2021)
   

f2 phage

Li N et al., Bio-inspired virus imprinted polymer for prevention of viral infections.
Acta Biomaterialia, 51, 175-183, (2017)
   

FQ

Feás X et al., Molecularly imprinted polyallylamine hydrogels: another reassessment.
Polymer International, 59, (1), 11-15, (2010)
   

FQ

Ton XA et al., Direct fluorimetric sensing of UV-excited analytes in biological and environmental samples using molecularly imprinted polymer nanoparticles and fluorescence polarization.
Biosensors and Bioelectronics, 36, (1), 22-28, (2012)
   

FQ

Hu ZH et al., Fabrication of ofloxacin imprinted polymer on the surface of magnetic carboxylated cellulose nanocrystals for highly selective adsorption of fluoroquinolones from water.
International Journal of Biological Macromolecules, 107, (Part A), 453-462, (2018)
   

FQs

Turiel E et al., Molecular imprinting-based separation methods for selective analysis of fluoroquinolones in soils.
Journal of Chromatography A, 1172, (2), 97-104, (2007)
   

FQs

Chen LG et al., Determination of fluoroquinolone antibiotics in environmental water samples based on magnetic molecularly imprinted polymer extraction followed by liquid chromatography-tandem mass spectrometry.
Analytica Chimica Acta, 662, (1), 31-38, (2010)
   

FQs

Zheng MM et al., Selective sample pretreatment by molecularly imprinted polymer monolith for the analysis of fluoroquinolones from milk samples.
Journal of Chromatography A, 1217, (14), 2075-2081, (2010)
   

FQs

Prieto A et al., Synthesis of a molecularly imprinted polymer and its application for microextraction by packed sorbent for the determination of fluoroquinolone related compounds in water.
Analytica Chimica Acta, 685, (2), 146-152, (2011)
   

FQs

Rodriguez E et al., Multiresidue determination of fluoroquinolone antimicrobials in baby foods by liquid chromatography.
Food Chemistry, 127, (3), 1354-1360, (2011)
   

FQs

Rodríguez E et al., Multiresidue Determination of Ultratrace Levels of Fluoroquinolone Antimicrobials in Drinking and Aquaculture Water Samples by Automated Online Molecularly Imprinted Solid Phase Extraction and Liquid Chromatography.
Analytical Chemistry, 83, (6), 2046-2055, (2011)
   

FQs

Blasco C et al., Development of an Improved Method for Trace Analysis of Quinolones in Eggs of Laying Hens and Wildlife Species Using Molecularly Imprinted Polymers.
Journal of Agricultural and Food Chemistry, 60, (44), 11005-11014, (2012)
   

FQs

Liu X et al., An electrochemically enhanced solid-phase microextraction approach based on molecularly imprinted polypyrrole/multi-walled carbon nanotubes composite coating for selective extraction of fluoroquinolones in aqueous samples.
Analytica Chimica Acta, 727, (1), 26-33, (2012)
   

FQs

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

FQs

Tang WJ et al., Preparation of hollow molecular imprinting polymer for determination of ofloxacin in milk.
Analytical Methods, 6, (10), 3309-3315, (2014)
   

FQs

Urraca JL et al., Multiresidue analysis of fluoroquinolone antimicrobials in chicken meat by molecularly imprinted solid-phase extraction and high performance liquid chromatography.
Journal of Chromatography A, 1343, 1-9, (2014)
   

FQs

Wang H et al., Preparation of molecular imprinted microspheres based on inorganic-organic co-functional monomer for miniaturized solid-phase extraction of fluoroquinolones in milk.
Journal of Chromatography B, 949-950, 24-29, (2014)
   

FQs

Yang X et al., Synthesis of a novel molecularly imprinted organic-inorganic hybrid polymer for the selective isolation and determination of fluoroquinolones in tilapia.
Journal of Chromatography B, 945-946, 127-134, (2014)
   

FQs

Zheng HB et al., Facile synthesis of magnetic molecularly imprinted polymers and its application in magnetic solid phase extraction for fluoroquinolones in milk samples.
Journal of Chromatography A, 1329, 17-23, (2014)
   

FQs

Mirzajani R et al., Fabrication of ciprofloxacin molecular imprinted polymer coating on a stainless steel wire as a selective solid-phase microextraction fiber for sensitive determination of fluoroquinolones in biological fluids and tablet formulation using HPLC-UV detection.
Journal of Pharmaceutical and Biomedical Analysis, 122, 98-109, (2016)
   

FQs

Wang HW et al., Selective extraction and determination of fluoroquinolones in bovine milk samples with montmorillonite magnetic molecularly imprinted polymers and capillary electrophoresis.
Analytical and Bioanalytical Chemistry, 408, (2), 589-598, (2016)
   

FQs

Wang N et al., Fabrication of novel surface-imprinted magnetic graphene oxide-grafted cellulose nanocrystals for selective extraction and fast adsorption of fluoroquinolones from water.
Analytical and Bioanalytical Chemistry, 409, (28), 6643-6653, (2017)
   

FQs

Zhang H et al., Internal Extractive Electrospray Ionization Mass Spectrometry for Quantitative Determination of Fluoroquinolones Captured by Magnetic Molecularly Imprinted Polymers from Raw Milk.
Scientific Reports, 7, (1), ArticleNo14714-(2017)
   

FQs

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)
   

FQs

Kou W et al., Fast quantification of fluoroquinolones in environmental water samples using molecularly imprinted polymers coupled with internal extractive electrospray ionization mass spectrometry.
RSC Advances, 8, (31), 17293-17299, (2018)
   

FQs

Xu Y et al., Simultaneous determination of sulfonamides and fluoroquinolones from environmental water based on magnetic double-template molecularly imprinting technique.
Environmental Science and Pollution Research, 25, (16), 16121-16134, (2018)
   

FQs

Barahona F et al., Molecularly imprinted polymer-hollow fiber microextraction of hydrophilic fluoroquinolone antibiotics in environmental waters and urine samples.
Journal of Chromatography A, 1587, 42-49, (2019)
   

FQs

Li J et al., Class-specific determination of fluoroquinolones based on a novel chemiluminescence system with molecularly imprinted polymers.
Food Chemistry, 298, Article125066-(2019)
   

FQs

Lu WH et al., Dual-template molecularly imprinted polymers for dispersive solid-phase extraction of fluoroquinolones in water samples coupled with high performance liquid chromatography.
Analyst, 144, (4), 1292-1302, (2019)
   

FQs

Shao HK et al., Preparation of molecularly imprinted hybrid monoliths for the selective detection of fluoroquinolones in infant formula powders.
Journal of Chromatography A, 1588, 33-40, (2019)
   

FQs

Dai XJ et al., Preparation of water-compatible magnetic imprinted nanospheres using heptakis (β-cyclodextrin-ionic liquid) as functional monomer for selective recognition of fluoroquinolones in water samples.
Microchemical Journal, 171, Article106793-(2021)
   

fragment imprint

Kubo T et al., Selective Separation of Hydroxy Poly-Chlorinated Biphenyls (Hydroxy PCBs).
Chromatography, 27, (Supplement 1), 45-46, (2006)
   

fragment imprint

Kubo T et al., Chromatographic separation for domoic acid using a fragment imprinted polymer.
Analytica Chimica Acta, 577, (1), 1-7, (2006)
   

fragment template

Ndunda EN et al., Synthesis of stationary phases that provide group recognition for polychlorinated biphenyls by porogenic fragment template imprinting.
Journal of Separation Science, 39, (5), 939-946, (2016)
   

fragment template

Peng MJ et al., Boronate affinity-based surface molecularly imprinted polymers using glucose as fragment template for excellent recognition of glucosides.
Journal of Chromatography A, 1474, 8-13, (2016)
   

fragment template

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)
   

fragment template

Zhang YZ et al., Polydopamine-Coated Magnetic Molecularly Imprinted Polymers with Fragment Template for Identification of Pulsatilla Saponin Metabolites in Rat Feces with UPLC-Q-TOF-MS.
Journal of Agricultural and Food Chemistry, 66, (3), 653-660, (2018)
   

fragment template

Hou XY et al., Using self-polymerization synthesis of boronate-affinity hollow stannic oxide based fragment template molecularly imprinted polymers for the selective recognition of polyphenols.
Journal of Chromatography A, 1612, Article460631-(2020)
   

Fru

Hashidzume A et al., Switching the selectivity of a polyglycerol dendrimer monomolecularly imprinted with d-(-)-fructose.
Tetrahedron Letters, 50, (19), 2204-2207, (2009)
   

fructosazine

Henry N et al., Synthesis of water-compatible imprinted polymers of in situ produced fructosazine and 2,5-deoxyfructosazine.
Talanta, 99, 816-823, (2012)
   

fructose

BelBruno JJ et al., Detection of functional states of molecularly imprinted thin films with multi-cycling nanoindentation.
Polymer, 48, (6), 1679-1687, (2007)
   

fructose

Rajkumar R et al., Analysis of recognition of fructose by imprinted polymers.
Talanta, 76, (5), 1119-1123, (2008)
   

fructose

Okutucu B et al., Molecularly imprinted polymers for separation of various sugars from human urine.
Talanta, 87, (1), 74-79, (2011)
   

fructose

Schumacher S et al., Molecular imprinting of fructose using a polymerizable benzoboroxole: Effective complexation at pH 7.4.
Polymer, 52, (12), 2485-2491, (2011)
   

fructose

Mirmohseni A et al., Experimental design and multi-objective optimization of molecularly imprinted polymers for monosaccharides.
RSC Advances, 4, (39), 20177-20184, (2014)
   

fructose

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

fructose

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)
   

fructose

Muhammad P et al., Fast probing of glucose and fructose in plant tissues via plasmonic affinity sandwich assay with molecularly-imprinted extraction microprobes.
Analytica Chimica Acta, 995, 34-42, (2017)
   

fructose

Mukami HW et al., Application of a Custom-Synthesized Molecularly Imprinted Polymer for the Selective Isolation of Total Glucose and Fructose from 100% Fruit Juice Samples Prior to Instrumental Analysis.
Molecular Imprinting, 5, (1), ArticleNo16-(2018)
   

fructose

Moreira LFPP et al., Fructose determination in fruit juices using an electrosynthesized molecularly imprinted polymer on reduced graphene oxide modified electrode.
Food Chemistry, 352, Article129430-(2021)
   

fructosyl amine

Yamazaki T, An Amperometric Sensor Based on Gold Electrode Modified by Soluble Molecularly Imprinted Catalyst for Fructosyl Valine.
Electrochemistry, 80, (5), 353-357, (2012)
   

fructosyl amine compounds

Sode K et al., Molecular recognition of fructosyl amine compounds by molecularly imprinted polymers.
Nippon Kagakkai Koen Yokoshu, 79, (2), 840-(2011)
   

fructosylvaline

Sode K et al., A new concept for the construction of an artificial dehydrogenase for fructosylamine compounds and its application for an amperometric fructosylamine sensor.
Analytica Chimica Acta, 435, (1), 151-156, (2001)
   

fructosyl valine

Sode K et al., Construction of a molecular imprinting catalyst using target analogue template and its application for an amperometric fructosylamine sensor.
Biosensors and Bioelectronics, 18, (12), 1485-1490, (2003)
   

fructosyl valine

Yamazaki T et al., Molecular imprinting catalyst based artificial enzyme sensor for fructosylamines.
Analytical Letters, 36, (1), 75-89, (2003)
   

fructosyl valine

Rajkumar R et al., Development of fructosyl valine binding polymers by covalent imprinting.
Biosensors and Bioelectronics, 22, (12), 3318-3325, (2007)
   

fructosyl valine

Rajkumar R et al., Synthesis and thermometric application of a molecularly imprinted polymer for fructosyl valine.
Tissue Engineering, 13, (4), 889-890, (2007)
   

fructosyl-valine

Yamazaki T et al., Operational condition of a molecular imprinting catalyst-based fructosyl-valine sensor.
Electrochemistry, 76, (8), 590-593, (2008)
   

fructosyl valine

Yamazaki T, An Amperometric Sensor Based on Gold Electrode Modified by Soluble Molecularly Imprinted Catalyst for Fructosyl Valine.
Electrochemistry, 80, (5), 353-357, (2012)
   

fructosyl valyl histidyl

Yamazaki T et al., Operational condition of a molecular imprinting catalyst-based fructosyl-valine sensor.
Electrochemistry, 76, (8), 590-593, (2008)
   

fruit aroma volatiles

Proceeding, Hawari HF et al, Development of highly selective electronic nose using molecular imprinted polymer (MIP) for recognition of fruit ripeness, 
(2012)
   

Fru-val

Sode K et al., A new concept for the construction of an artificial dehydrogenase for fructosylamine compounds and its application for an amperometric fructosylamine sensor.
Analytica Chimica Acta, 435, (1), 151-156, (2001)
   

Fru-val

Sode K et al., Construction of a molecular imprinting catalyst using target analogue template and its application for an amperometric fructosylamine sensor.
Biosensors and Bioelectronics, 18, (12), 1485-1490, (2003)
   

Fru-val

Yamazaki T et al., Molecular imprinting catalyst based artificial enzyme sensor for fructosylamines.
Analytical Letters, 36, (1), 75-89, (2003)
   

Fru-Val

Rajkumar R et al., Development of fructosyl valine binding polymers by covalent imprinting.
Biosensors and Bioelectronics, 22, (12), 3318-3325, (2007)
   

Fru-val

Yamazaki T et al., Operational condition of a molecular imprinting catalyst-based fructosyl-valine sensor.
Electrochemistry, 76, (8), 590-593, (2008)
   

Fru-Val

Chuang SW et al., Electrochemical characterisation of a conductive polymer molecularly imprinted with an Amadori compound.
Biosensors and Bioelectronics, 24, (10), 3170-3173, (2009)
   

Fru-val

Yamazaki T, An Amperometric Sensor Based on Gold Electrode Modified by Soluble Molecularly Imprinted Catalyst for Fructosyl Valine.
Electrochemistry, 80, (5), 353-357, (2012)
   

FTC

Lai JP et al., Synthesis and evaluation of molecularly imprinted polymeric microspheres for highly selective extraction of an anti-AIDS drug emtricitabine.
Analytical and Bioanalytical Chemistry, 405, (12), 4269-4275, (2013)
   

FTL

Lei RL et al., A Novel Electrochemical Sensor for β2-Agonists with High Sensitivity and Selectivity Based on Surface Molecularly Imprinted Sol-gel Doped with Antimony-Doped Tin Oxide.
Electroanalysis, 26, (5), 1004-1012, (2014)
   

6:2FTS

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

5-FU

Kugimiya A et al., Synthesis of 5-fluorouracil-imprinted polymers with multiple hydrogen bonding interactions.
Analyst, 126, (6), 772-774, (2001)
   

5-FU

Puoci F et al., Molecularly imprinted polymers for 5-fluorouracil release in biological fluids.
Molecules, 12, (4), 805-814, (2007)
   

5-FU

Singh B et al., Preliminary evaluation of molecular imprinting of 5-fluorouracil within hydrogels for use as drug delivery systems.
Acta Biomaterialia, 4, (5), 1244-1254, (2008)
   

5FU

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

5-FU

Men JY et al., Preparation of 5-Fluorouracil-Surface Imprinted Microspheres MIP-PSSS/CPVA and Studies on its Character of Colon-Specific Drug Delivery.
Acta Chimica Sinica, 70, (21), 2273-2280, (2012)
   

FU

Huynh TP et al., Molecularly Imprinted Polymer for Recognition of 5-Fluorouracil by RNA-type Nucleobase Pairing.
Analytical Chemistry, 85, (17), 8304-8312, (2013)
   

5-FU

Kan WT et al., Molecularly imprinted polymer hydrogel as 5-FU controlled release carrier.
Chemical Industry and Engineering Progress, 32, (3), 627-633, (2013)
   

5-FU

Çetin K et al., 5-Fluorouracil delivery from metal-ion mediated molecularly imprinted cryogel discs.
Colloids and Surfaces B: Biointerfaces, 126, 401-406, (2015)
   

5-FU

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)
   

5-FU

Hashemi-Moghaddam H et al., Evaluation of magnetic nanoparticles coated by 5-fluorouracil imprinted polymer for controlled drug delivery in mouse breast cancer model.
International Journal of Pharmaceutics, 497, (1-2), 228-238, (2016)
   

5-FU

Li LF et al., Temperature and magnetism bi-responsive molecularly imprinted polymers: Preparation, adsorption mechanism and properties as drug delivery system for sustained release of 5-fluorouracil.
Materials Science and Engineering: C, 61, 158-168, (2016)
   

FU

Mirzajani R et al., Simultaneous preconcentration and determination of malachite green and fuchsine dyes in seafood and environmental water samples using nano-alumina-based molecular imprinted polymer solid-phase extraction.
International Journal of Environmental Analytical Chemistry, 96, (6), 576-594, (2016)
   

5-FU

Oliveira D et al., Molecular imprinting of 5-fluorouracil in particles with surface RAFT grafted functional brushes.
Reactive and Functional Polymers, 107, 35-45, (2016)
   

5-FU

Zheng XF et al., Surface Molecularly Imprinted Polymer of Chitosan Grafted Poly(methyl methacrylate) for 5-Fluorouracil and Controlled Release.
Scientific Reports, 6, ArticleNo21409-(2016)
   

5-FU

Zhang L et al., Recognition of 5-fluorouracil by thermosensitive magnetic surface molecularly imprinted microspheres designed using a computational approach.
Journal of Applied Polymer Science, 134, (43), ArticleNo45468-(2017)
   

5-FU

Gardouh AR et al., Antitumor activity of a molecularly imprinted nanopreparation of 5-flurouracil against Ehrlich’s carcinoma solid tumors grown in mice: Comparison to free 5-flurouracil.
Chemico-Biological Interactions, 295, 52-63, (2018)
   

5-FU

Madadian-Bozorg N et al., Poly (methacrylic acid)-based molecularly imprinted polymer nanoparticles containing 5-fluourouracil used in colon cancer therapy potentially.
Polymers for Advanced Technologies, 29, (8), 2401-2409, (2018)
   

5-FU

Cairo P et al., 110th Anniversary: Selective Recognition of 5-Fluorouracil with Molecular Imprinting Membranes: Molecular Details.
Industrial & Engineering Chemistry Research, 58, (34), 15497-15505, (2019)
   

5-FU

Talavat L et al., Thermodynamic computational calculations for preparation 5-fluorouracil magnetic moleculary imprinted polymers and their application in controlled drug release.
Inorganic Chemistry Communications, 103, 119-127, (2019)
   

FU

Lin WL et al., Preparation of a Molecularly Imprinted Film on Quartz Crystal Microbalance Chip for Determination of Furanic Compounds.
Chemosensors, 9, (12), ArticleNo338-(2021)
   

FuB1

Singh AK et al., A simple detection platform based on molecularly imprinted polymer for AFB1 and FuB1 mycotoxins.
Microchemical Journal, 171, Article106730-(2021)
   

fuberidazole

Cacho C et al., Molecularly imprinted polymers: An analytical tool for the determination of benzimidazole compounds in water samples.
Talanta, 78, (3), 1029-1035, (2009)
   

fuberidazole

Liang GH et al., Molecularly imprinted monolithic column based on functionalized β-cyclodextrin and multi-walled carbon nanotubes for selective recognition of benzimidazole residues in citrus samples.
Microchemical Journal, 146, 1285-1294, (2019)
   

fuchsine basic

Mirzajani R et al., Simultaneous preconcentration and determination of malachite green and fuchsine dyes in seafood and environmental water samples using nano-alumina-based molecular imprinted polymer solid-phase extraction.
International Journal of Environmental Analytical Chemistry, 96, (6), 576-594, (2016)
   

fucoidan

Li G et al., Magnetic molecularly imprinted polymers for recognition and enrichment of polysaccharides from seaweed.
Journal of Separation Science, 40, (24), 4765-4772, (2017)
   

fucoidan

Li GZ et al., Molecularly Imprinted Polymers Modified by Deep Eutectic Solvents and Ionic Liquids with Two Templates for the Simultaneous Solid-Phase Extraction of Fucoidan and Laminarin from Marine Kelp.
Analytical Letters, 52, (3), 511-525, (2019)
   

fucose

Wang SS et al., Targeting and Imaging of Cancer Cells via Monosaccharide-Imprinted Fluorescent Nanoparticles.
Scientific Reports, 6, ArticleNo22757-(2016)
   

fucose

Li G et al., Magnetic hybrid imprinted polymers with three-templates modified by DESs for the rapid purification of monosaccharide from seaweed.
Journal of Liquid Chromatography & Related Technologies, 40, (20), 1037-1046, (2017)
   

fucose

Wang SS et al., Pattern Recognition of Cells via Multiplexed Imaging with Monosaccharide-Imprinted Quantum Dots.
Analytical Chemistry, 89, (10), 5646-5652, (2017)
   

fumonisin B

De Smet D et al., Molecularly imprinted solid-phase extraction of fumonisin B analogues in bell pepper, rice and corn flakes.
Food Additives & Contaminants: Part A: Chemistry, Analysis, Control, Exposure & Risk Assessment, 26, (6), 874-884, (2009)
   

Fumonisin B1

Bryla M et al., Application of molecularly imprinted polymers to determine B1, B2, and B3 fumonisins in cereal products.
Journal of Separation Science, 36, (3), 578-584, (2013)
   

Fumonisin B2

Bryla M et al., Application of molecularly imprinted polymers to determine B1, B2, and B3 fumonisins in cereal products.
Journal of Separation Science, 36, (3), 578-584, (2013)
   

Fumonisin B3

Bryla M et al., Application of molecularly imprinted polymers to determine B1, B2, and B3 fumonisins in cereal products.
Journal of Separation Science, 36, (3), 578-584, (2013)
   

fumonisin B2

Smolinska-Kempisty K et al., A comparison of the performance of molecularly imprinted polymer nanoparticles for small molecule targets and antibodies in the ELISA format.
Scientific Reports, 6, ArticleNo37638-(2016)
   

fumonisin B1

Zhang W et al., Surface-enhanced molecularly imprinted electrochemiluminescence sensor based on Ru@SiO2 for ultrasensitive detection of fumonisin B1.
Biosensors and Bioelectronics, 96, 55-61, (2017)
   

fumonisin B1

Munawar H et al., Molecularly imprinted polymer nanoparticle-based assay (MINA): application for fumonisin B1 determination.
Analyst, 143, (14), 3481-3488, (2018)
   

fumonisin B1

Mao LB et al., Molecularly imprinted photoelectrochemical sensor for fumonisin B1 based on GO-CdS heterojunction.
Biosensors and Bioelectronics, 127, 57-63, (2019)
   

fumonisin B1

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

fumonisin B1

Munawar H et al., Electrochemical determination of fumonisin B1 using a chemosensor with a recognition unit comprising molecularly imprinted polymer nanoparticles.
Sensors and Actuators B: Chemical, 321, Article128552-(2020)
   

fumonisin B1

Singh AK et al., A simple detection platform based on molecularly imprinted polymer for AFB1 and FuB1 mycotoxins.
Microchemical Journal, 171, Article106730-(2021)
   

fungicide

Rossignol J et al., In situ Pesticide Detection in Food Processing by Microwave Transduction Combined with Molecularly Imprinted Polymers.
Procedia Engineering, 168, 550-552, (2016)
   

2-furaldehyde

Pesavento M et al., Sensing by Molecularly Imprinted Polymer: Evaluation of the Binding Properties with Different Techniques.
Sensors, 19, (6), ArticleNo1344-(2019)
   

2-furaldehyde

Lin WL et al., Preparation of a Molecularly Imprinted Film on Quartz Crystal Microbalance Chip for Determination of Furanic Compounds.
Chemosensors, 9, (12), ArticleNo338-(2021)
   

furaltadone

Rusen E et al., Synthesis and retention properties of molecularly imprinted polymers for antibiotics containing a 5-nitrofuran ring.
RSC Advances, 7, (80), 50844-50852, (2017)
   

furan

Peng N et al., Preparation and Binding Characteristics of Molecularly Imprinted Polymers for Furan.
Chinese Journal of Analytical Chemistry, 38, (4), 559-563, (2010)
   

furan

Hashemi-Moghaddam H et al., Novel molecularly-imprinted solid-phase microextraction fiber coupled with gas chromatography for analysis of furan.
Talanta, 150, 148-154, (2016)
   

furan-2-carbaldehyde

Proceeding, Cennamo N et al, Optical chemical sensor for oil-filled power transformer, 
In: Photonics Technologies, 2014 Fotonica AEIT Italian Conference on, 1-3, (2014)
   

furan-2-carbaldehyde

Proceeding, Cennamo N et al, An optical platform for furfural detection in trasformer oil, 
1-4, (2015)
   

furan-2-carbaldehyde

Cennamo N et al., Monitoring of Low Levels of Furfural in Power Transformer Oil with a Sensor System Based on a POF-MIP Platform.
Sensors, 15, (4), 8499-8511, (2015)
   

furan-2-carbaldehyde

Book chapter, Cennamo Net al., Chemical Sensors Based on Surface Plasmon Resonance in a Plastic Optical Fiber for Multianalyte Detection in Oil-Filled Power Transformer, 
In: Sensors: Proceedings of the Third National Conference on Sensors, February 23-25, 2016, Rome, Italy, Andň B, Baldini F, Di Natale C, Marrazza G, Siciliano P (Eds.) Springer International Publishing: Cham, 128-134, (2018)
   

furan-2-carbaldehyde

Proceeding, Cennamo N et al, A novel chemical optical sensor based on molecularly imprinted polymer, optical fibers and inkjet printing technology, 
ArticleNo8409619, (2018)
   

furan-2-carbaldehyde

Zeni L et al., Slab plasmonic platforms combined with Plastic Optical Fibers and Molecularly Imprinted Polymers for chemical sensing.
Optics & Laser Technology, 107, 484-490, (2018)
   

furan-2-carbaldehyde

Cennamo N et al., A Novel Sensing Methodology to Detect Furfural in Water, Exploiting MIPs, and Inkjet-Printed Optical Waveguides.
IEEE Transactions on Instrumentation and Measurement, 68, (5), 1582-1589, (2019)
   

furanic compounds

Lin WL et al., Preparation of a Molecularly Imprinted Film on Quartz Crystal Microbalance Chip for Determination of Furanic Compounds.
Chemosensors, 9, (12), ArticleNo338-(2021)
   

furazolidone

Mohammadi Toudeshki R et al., Chemiluminescence determination of furazolidone in poultry tissues and water samples after selective solid phase microextraction using magnetic molecularly imprinted polymers.
New Journal of Chemistry, 42, (13), 10751-10760, (2018)
   

furazolidone

Mohammadi Toudeshki R et al., Hollow fiber reinforced with molecularly imprinted polymer supported on multiwalled carbon nanotubes for microextraction of furazolidone in real samples prior to its spectrophotometric determination.
Journal of the Iranian Chemical Society, 16, (9), 2003-2010, (2019)
   

furazolidone

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

furfural

Cennamo N et al., Combined Molecularly Imprinted Polymer and Surface Plasmon Resonance Transduction in Plastic Optical Fiber for Monitoring Oil-filled Power Transformers.
Procedia Engineering, 87, 532-535, (2014)
   

furfural

Proceeding, Cennamo N et al, Optical chemical sensor for oil-filled power transformer, 
In: Photonics Technologies, 2014 Fotonica AEIT Italian Conference on, 1-3, (2014)
   

furfural

Proceeding, Cennamo N et al, An optical platform for furfural detection in trasformer oil, 
1-4, (2015)
   

furfural

Cennamo N et al., Monitoring of Low Levels of Furfural in Power Transformer Oil with a Sensor System Based on a POF-MIP Platform.
Sensors, 15, (4), 8499-8511, (2015)
   

furfural

Cennamo N et al., Markers Detection in Transformer Oil by Plasmonic Chemical Sensor System Based on POF and MIPs.
IEEE Sensors Journal, 16, (21), 7663-7670, (2016)
   

furfural

Pesavento M et al., Towards the development of cascaded surface plasmon resonance POF sensors exploiting gold films and synthetic recognition elements for detection of contaminants in transformer oil.
Sensing and Bio-Sensing Research, 13, 128-135, (2017)
   

furfural

Book chapter, Cennamo Net al., Chemical Sensors Based on Surface Plasmon Resonance in a Plastic Optical Fiber for Multianalyte Detection in Oil-Filled Power Transformer, 
In: Sensors: Proceedings of the Third National Conference on Sensors, February 23-25, 2016, Rome, Italy, Andň B, Baldini F, Di Natale C, Marrazza G, Siciliano P (Eds.) Springer International Publishing: Cham, 128-134, (2018)
   

furfural

Proceeding, Cennamo N et al, A novel chemical optical sensor based on molecularly imprinted polymer, optical fibers and inkjet printing technology, 
ArticleNo8409619, (2018)
   

furfural

Cennamo N et al., A Novel Sensing Methodology to Detect Furfural in Water, Exploiting MIPs, and Inkjet-Printed Optical Waveguides.
IEEE Transactions on Instrumentation and Measurement, 68, (5), 1582-1589, (2019)
   

2-furfuraldehyde

Nezami MM et al., An MIP-Based Novel Capacitive Sensor to Detect 2-FAL Concentration in Transformer Oil.
IEEE Sensors Journal, 18, (19), 7924-7931, (2018)
   

furosemide

Gholivand MB et al., Computer aided-molecular design and synthesis of a high selective molecularly imprinted polymer for solid-phase extraction of furosemide from human plasma.
Analytica Chimica Acta, 658, (2), 225-232, (2010)
   

furosemide

Kor K et al., Development and characterization of an electrochemical sensor for furosemide detection based on electropolymerized molecularly imprinted polymer.
Talanta, 146, 181-187, (2016)
   

furosemide

Fareghi AR et al., Preparation of metal ion-mediated Furosemide molecularly imprinted polymer: synthesis, characterization, and drug release studies.
Colloid & Polymer Science, 295, (6), 945-957, (2017)
   

furosemide

Fareghi AR et al., Synthesis and characterization of a cellulose-based molecularly imprinted polymer in aqueous solution: The study of Furosemide slow release.
Starch - Stärke, 69, (11-12), ArticleNo1700002-(2017)
   

furosemide

Wang YY et al., C3N4 Nanosheets/Metal-Organic Framework Wrapped with Molecularly Imprinted Polymer Sensor: Fabrication, Characterization, and Electrochemical Detection of Furosemide.
ACS Sustainable Chemistry & Engineering, 6, (12), 16847-16858, (2018)
   

fusaric acid

Appell M et al., Analysis of fusaric acid in maize using molecularly imprinted solid phase extraction (MISPE) clean-up and ion-pair LC with diode array UV detection.
Abstracts of Papers of the American Chemical Society, 247, (AGFD), 138-(2014)
   

fusaric acid

Appell M et al., Determination of fusaric acid in maize using molecularly imprinted SPE clean-up.
Journal of Separation Science, 37, (3), 281-286, (2014)
   

fusaric acid

Lin YL et al., Molecularly Imprinted Photonic Crystals Based on Fusaric Acid for the Detection of Banana Fusarium Wilt.
ACS Applied Polymer Materials, 3, (11), 5818-5825, (2021)
   

FXN

Meucci VM et al., Determination of phenylbutazone and flunixin meglumine in horse plasma by electro-chemical-based detection coupled to selective extraction with molecularly imprinted polymers.
Journal of Veterinary Pharmacology and Therapeutics, 35, (Supplement 3), 90-90, (2012)
   

FXN

Radi AE et al., Voltammetric Determination of Flunixin on Molecularly Imprinted Polypyrrole Modified Glassy Carbon Electrode.
Journal of Analytical Methods in Chemistry, 2016, ArticleID5296582-(2016)
   

FXT

Barati A et al., Synthesis/characterization of molecular imprinted polymer based on magnetic chitosan/graphene oxide for selective separation/preconcentration of fluoxetine from environmental and biological samples.
Journal of Industrial and Engineering Chemistry, 46, 212-221, (2017)
   

FXT

Feroz M et al., A novel molecular imprinted polymer layer electrode for enhanced sensitivity electrochemical determination of the antidepressant fluoxetine.
Journal of Electroanalytical Chemistry, 878, Article114693-(2020)
   

FZD

Mohammadi Toudeshki R et al., Chemiluminescence determination of furazolidone in poultry tissues and water samples after selective solid phase microextraction using magnetic molecularly imprinted polymers.
New Journal of Chemistry, 42, (13), 10751-10760, (2018)
   

FZD

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

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