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  1. Abbott B et al., Use of polymeric solid phase in synthesis of MIP nanoparticles for biotin.
    Reactive and Functional Polymers, 170, Article105109-(2022)
  2. García Y et al., A magnetic molecularly imprinted nanoparticle assay (MINA) for detection of pepsin.
    Reactive and Functional Polymers, 170, Article105133-(2022)
  3. Piletsky SS et al., Snapshot imprinting: rapid identification of cancer cell surface proteins and epitopes using molecularly imprinted polymers.
    Nano Today, 41, Article101304-(2021)
  4. Alanazi K et al., Disposable paracetamol sensor based on electroactive molecularly imprinted polymer nanoparticles for plasma monitoring.
    Sensors and Actuators B: Chemical, 329, Article129128-(2021)
  5. Hand RA et al., Application of molecularly imprinted polymers in the anti-doping field: sample purification and compound analysis.
    Analyst, 145, (14), 4716-4736, (2020)
  6. Garcia-Cruz A et al., Molecularly imprinted nanoparticles-based assay (MINA) - detection of leukotrienes and insulin.
    Analyst, 145, (12), 4224-4232, (2020)
  7. Garcia Cruz A et al., Design and fabrication of a smart sensor using in silico epitope mapping and electro-responsive imprinted polymer nanoparticles for determination of insulin levels in human plasma.
    Biosensors and Bioelectronics, 169, Article112536-(2020)
  8. Cowen T et al., Synthetic Mechanism of Molecular Imprinting at the Solid Phase.
    Macromolecules, 53, (4), 1435-1442, (2020)
  9. Esen C et al., Highly Efficient Abiotic Assay Formats for Methyl Parathion: Molecularly Imprinted Polymer Nanoparticle Assay as an Alternative to Enzyme-Linked Immunosorbent Assay.
    Analytical Chemistry, 91, (1), 958-964, (2019)
  10. Ekpenyong-Akiba AE et al., Detecting and targeting senescent cells using molecularly imprinted nanoparticles.
    Nanoscale Horizons, 4, (3), 757-768, (2019)
  11. López-Puertollano D et al., Study of Epitope Imprinting for Small Templates: Preparation of NanoMIPs for Ochratoxin A.
    ChemNanoMat, 5, (5), 651-657, (2019)
  12. Rapini R et al., NanoMIP-based approach for the suppression of interference signals in electrochemical sensors.
    Analyst, 144, (24), 7290-7295, (2019)
  13. Moczko E et al., Epitope approach in molecular imprinting of antibodies.
    Journal of Chromatography B, 1124, 1-6, (2019)
  14. Sergeyeva T et al., Development of a smartphone-based biomimetic sensor for aflatoxin B1 detection using molecularly imprinted polymer membranes.
    Talanta, 201, 204-210, (2019)
  15. Bedwell TS et al., New protocol for optimisation of polymer composition for imprinting of peptides and proteins.
    RSC Advances, 9, (48), 27849-27855, (2019)
  16. Munawar H et al., Molecularly imprinted polymer nanoparticle-based assay (MINA): application for fumonisin B1 determination.
    Analyst, 143, (14), 3481-3488, (2018)
  17. Liu LL et al., Proceeding, Molecularly Imprinted Nanoparticles Based on Long Period Grating Sensor for Detection of Fentanyl, 
    Article_WF7, (2018)
  18. Bates F et al., Computational design of molecularly imprinted polymer for direct detection of melamine in milk.
    Separation Science and Technology, 52, (8), 1441-1453, (2017)
  19. Karim K et al., A Protocol for the Computational Design of High Affinity Molecularly Imprinted Polymer Synthetic Receptors.
    Global Journal of Biotechnology and Biomaterial Science, 3, (1), 001-007, (2017)
  20. Smolinska-Kempisty K et al., New potentiometric sensor based on molecularly imprinted nanoparticles for cocaine detection.
    Biosensors and Bioelectronics, 96, 49-54, (2017)
  21. Tang SP et al., A pseudo-ELISA based on molecularly imprinted nanoparticles for detection of gentamicin in real samples.
    Analytical Methods, 9, (19), 2853-2858, (2017)
  22. Aftim N et al., Biosensor-assisted selection of optimal parameters for designing molecularly imprinted polymers selective to phosmet insecticide.
    Talanta, 174, 414-419, (2017)
  23. Sergeyeva T et al., Fluorescent sensor systems based on nanostructured polymeric membranes for selective recognition of Aflatoxin B1.
    Talanta, 175, 101-107, (2017)
  24. Garcia Y et al., Development of competitive 'pseudo'-ELISA assay for measurement of cocaine and its metabolites using molecularly imprinted polymer nanoparticles.
    Analytical Methods, 9, (31), 4592-4598, (2017)
  25. Piletska E et al., Biomimetic Silica Nanoparticles Prepared by a Combination of Solid-Phase Imprinting and Ostwald Ripening.
    Scientific Reports, 7, (1), ArticleNo11537-(2017)
  26. Motib A et al., Modulation of Quorum Sensing in a Gram-Positive Pathogen by Linear Molecularly Imprinted Polymers with Anti-infective Properties.
    Angewandte Chemie International Edition, 56, (52), 16555-16558, (2017)
  27. Cáceres C et al., Does size matter? Study of performance of pseudo-ELISAs based on molecularly imprinted polymer nanoparticles prepared for analytes of different sizes.
    Analyst, 141, (4), 1405-1412, (2016)
  28. Karim K et al., Development of MIP sensor for monitoring propofol in clinical procedures.
    Journal of the Chinese Advanced Materials Society, 3, (3), 149-160, (2015)
  29. Mistry J et al., Analysis of cooperative interactions in molecularly imprinted polymer nanoparticles.
    Molecular Imprinting, 3, (1), 55-64, (2015)
  30. 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)
  31. Bakas I et al., Electrochemical impedimetric sensor based on molecularly imprinted polymers/sol-gel chemistry for methidathion organophosphorous insecticide recognition.
    Talanta, 130, 294-298, (2014)
  32. Guerreiro A et al., Influence of Surface-Imprinted Nanoparticles on Trypsin Activity.
    Advanced Healthcare Materials, 3, (9), 1426-1429, (2014)
  33. Subrahmanyam S et al., Optimization of experimental conditions for synthesis of high affinity MIP nanoparticles.
    European Polymer Journal, 49, 100-105, (2013)
  34. Bakas I et al., Computational and experimental investigation of molecular imprinted polymers for selective extraction of dimethoate and its metabolite omethoate from olive oil.
    Journal of Chromatography A, 1274, 13-18, (2013)
  35. Cowieson D et al., Grafting of molecularly imprinted polymer to porous polyethylene filtration membranes by plasma polymerization.
    Analytical and Bioanalytical Chemistry, 405, (20), 6489-6496, (2013)
  36. Yoshimi Y et al., Application of the 'gate effect' of a molecularly imprinted polymer grafted on an electrode for the real-time sensing of heparin in blood.
    Analyst, 138, (17), 5121-5128, (2013)
  37. Moczko E et al., PEG-Stabilized Core-Shell Surface-Imprinted Nanoparticles.
    Langmuir, 29, (31), 9891-9896, (2013)
  38. Piletska E et al., Rational design and development of affinity adsorbents for analytical and biopharmaceutical applications.
    Journal of the Chinese Advanced Materials Society, 1, (3), 229-244, (2013)
  39. Piletska E et al., Extraction of salbutamol using co-sintered molecularly imprinted polymers as a new format of solid-phase extraction.
    Analytical Methods, 5, (24), 6954-6959, (2013)
  40. Dubey L et al., Selective Recognition of Bifunctional Molecules by Synthetic Polymers Prepared by Covalent Molecular Imprinting.
    The Open Analytical Chemistry Journal, 6, 15-21, (2012)
  41. Bakas I et al., Molecular imprinting solid phase extraction for selective detection of methidathion in olive oil.
    Analytica Chimica Acta, 734, (1), 99-105, (2012)
  42. Guerreiro AR et al., Selection of imprinted nanoparticles by affinity chromatography.
    Biosensors and Bioelectronics, 24, (8), 2740-2743, (2009)
  43. Guerreiro A et al., Preliminary evaluation of new polymer matrix for solid-phase extraction of nonylphenol from water samples.
    Analytica Chimica Acta, 612, (1), 99-104, (2008)
  44. Mijangos I et al., Influence of initiator and different polymerisation conditions on performance of molecularly imprinted polymers.
    Biosensors and Bioelectronics, 22, (3), 381-387, (2006)
  45. Schneider F et al., Comparison of thin-layer and bulk MlPs synthesized by photoinitiated in situ crosslinking polymerization from the same reaction mixtures.
    Journal of Applied Polymer Science, 98, (1), 362-372, (2005)
  46. Piletsky S et al., Custom synthesis of molecular imprinted polymers for biotechnological application - Preparation of a polymer selective for tylosin.
    Analytica Chimica Acta, 504, (1), 123-130, (2004)
  47. Piletska E et al., Biotin-specific synthetic receptors prepared using molecular imprinting.
    Analytica Chimica Acta, 504, (1), 179-183, (2004)
  48. Piletsky S et al., Surface functionalization of porous polypropylene membranes with polyaniline for protein immobilization.
    Biotechnology and Bioengineering, 82, (1), 86-92, (2003)

  49. Similar names

    Pi FW
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