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  1. Piletska EV et al., Combinatorial screening of polymer nanoparticles for their ability to recognize epitopes of AAV-neutralizing antibodies.
    Journal of Molecular Recognition, 33, (4), Article_e2824-(2020)
       
  2. Garcia Lopez J et al., Application of molecularly imprinted polymer nanoparticles for degradation of the bacterial autoinducer N-hexanoyl homoserine lactone.
    Chemical Communications, 55, (18), 2664-2667, (2019)
       
  3. Piletsky SS et al., A Novel Assay Format as an Alternative to ELISA: MINA Test for Biotin.
    ChemNanoMat, 4, (12), 1214-1222, (2018)
       
  4. Piletsky SS et al., Development of molecularly imprinted polymers specific for blood antigens for application in antibody-free blood typing.
    Chemical Communications, 53, (11), 1793-1796, (2017)
       
  5. Sergeyeva TA et al., Sensor System for Sulfamethoxazole Detection Based on Molecularly Imprinted Polymer Membranes.
    Innovative Biosystems & Bioengineering, 1, (1), 11-17, (2017)
       
  6. Piletska EV et al., Magnetic high throughput screening system for the development of nano-sized molecularly imprinted polymers for controlled delivery of curcumin.
    Analyst, 140, (9), 3113-3120, (2015)
       
  7. Sergeyeva TA et al., Colorimetric biomimetic sensor systems based on molecularly imprinted polymer membranes for highly-selective detection of phenol in environmental samples.
    Biopolymers and Cell, 30, (3), 209-215, (2014)
       
  8. Sergeyeva TA et al., Colorimetric test-systems for creatinine detection based on composite molecularly imprinted polymer membranes.
    Analytica Chimica Acta, 770, 161-168, (2013)
       
  9. Poma A et al., Solid-Phase Synthesis of Molecularly Imprinted Polymer Nanoparticles with a Reusable Template-"Plastic Antibodies".
    Advanced Functional Materials, 23, (22), 2821-2827, (2013)
       
  10. Chianella I et al., Direct Replacement of Antibodies with Molecularly Imprinted Polymer Nanoparticles in ELISA - Development of a Novel Assay for Vancomycin.
    Analytical Chemistry, 85, (17), 8462-8468, (2013)
       
  11. Lakshmi D et al., Computational Design and Preparation of MIPs for Atrazine Recognition on a Conjugated Polymer-Coated Microtiter Plate.
    Industrial & Engineering Chemistry Research, 52, (39), 13910-13916, (2013)
       
  12. Muhammad T et al., Rational design and synthesis of water-compatible molecularly imprinted polymers for selective solid phase extraction of amiodarone.
    Analytica Chimica Acta, 709, (1), 98-104, (2012)
       
  13. Piletska EV et al., Application of a Molecularly Imprinted Polymer for the Extraction of Kukoamine A from Potato Peels.
    Journal of Agricultural and Food Chemistry, 60, (1), 95-99, (2012)
       
  14. Muhammad T et al., Rational design of molecularly imprinted polymer: the choice of cross-linker.
    Analyst, 137, (11), 2623-2628, (2012)
       
  15. Ivanova-Mitseva PK et al., Cubic Molecularly Imprinted Polymer Nanoparticles with a Fluorescent Core.
    Angewandte Chemie International Edition, 51, (21), 5196-5199, (2012)
       
  16. Piletska EV et al., Passive Control of Quorum Sensing: Prevention of Pseudomonas aeruginosa Biofilm Formation by Imprinted Polymers.
    Biomacromolecules, 12, (4), 1067-1071, (2011)
       
  17. Liu C et al., Synthesis of Lidocaine Molecularly Imprinted Polymers and Application on Solid Phase Extraction.
    Chinese Journal of Analytical Chemistry, 38, (11), 1652-1656, (2010)
       
  18. Garcinu˝o RM et al., The stabilisation of receptor structure in low cross-linked MIPs by an immobilised template.
    Soft Matter, 5, (2), 313-317, (2009)
       
  19. Lakshmi D et al., Electrochemical Sensor for Catechol and Dopamine Based on a Catalytic Molecularly Imprinted Polymer-Conducting Polymer Hybrid Recognition Element.
    Analytical Chemistry, 81, (9), 3576-3584, (2009)
       
  20. Piletska EV et al., Influence of the Polymerization Conditions on the Performance of Molecularly Imprinted Polymers.
    Macromolecules, 42, (14), 4921-4928, (2009)
       
  21. Romero-Guerra M et al., Development of a piezoelectric sensor for the detection of methamphetamine.
    Analyst, 134, (8), 1565-1570, (2009)
       
  22. Piletska EV et al., Design of molecular imprinted polymers compatible with aqueous environment.
    Analytica Chimica Acta, 607, (1), 54-60, (2008)
       
  23. Mazzotta E et al., Development of a sensor prepared by entrapment of MIP particles in electrosynthesised polymer films for electrochemical detection of ephedrine.
    Biosensors and Bioelectronics, 23, (7), 1152-1156, (2008)
       
  24. Guerreiro AR et al., Influence of continuous magnetic field on the separation of ephedrine enantiomers by molecularly imprinted polymers.
    Biosensors and Bioelectronics, 23, (7), 1189-1194, (2008)
       
  25. Pascale M et al., Use of itaconic acid-based polymers for solid-phase extraction of deoxynivalenol and application to pasta analysis.
    Analytica Chimica Acta, 609, (2), 131-138, (2008)
       
  26. Sergeyeva TA et al., Porous molecularly imprinted polymer membranes and polymeric particles.
    Analytica Chimica Acta, 582, (2), 311-319, (2007)
       
  27. Breton F et al., Virtual imprinting as a tool to design efficient MIPs for photosynthesis-inhibiting herbicides.
    Biosensors and Bioelectronics, 22, (9-10), 1948-1954, (2007)
       
  28. Chianella I et al., Computational design and synthesis of molecularly imprinted polymers with high binding capacity for pharmaceutical applications-model case: Adsorbent for abacavir.
    Analytica Chimica Acta, 559, (1), 73-78, (2006)
       
  29. Breton F et al., Book chapter, Mimicking the plastoquinone-binding pocket of Photosystem II using molecularly imprinted polymers, 
    In: Biotechnological Applications of Photosynthetic Proteins: Biochips, Biosensors and Biodevices, Giardi MT, Piletska EV (Eds.) Landes Bioscience: Georgetown, Texas, Ch. 14, 155-165, (2006)
       
  30. Piletsky SA et al., Synthesis of Biologically Active Molecules by Imprinting Polymerisation.
    Biopolymers and Cell, 22, (1), 63-68, (2006)
       
  31. Piletsky SA et al., Polymer cookery: Influence of polymerization time and different initiation conditions on performance of molecularly imprinted polymers.
    Macromolecules, 38, (4), 1410-1414, (2005)
       
  32. Piletska EV et al., Adaptation of the molecular imprinted polymers towards polar environment.
    Analytica Chimica Acta, 542, (1), 47-51, (2005)
       
  33. Piletska EV et al., Towards the development of multisensor for drugs of abuse based on molecular imprinted polymers.
    Analytica Chimica Acta, 542, (1), 111-117, (2005)
       
  34. Piletska EV et al., Controlled release of the herbicide simazine from computationally designed molecularly imprinted polymers.
    Journal of Controlled Release, 108, (1), 132-139, (2005)
       
  35. Karim K et al., How to find effective functional monomers for effective molecularly imprinted polymers?
    Advanced Drug Delivery Reviews, 57, (12), 1795-1808, (2005)
       
  36. Piletsky SA et al., Molecularly imprinted polymers - Tyrosinase mimics.
    Ukrainskii Biokhimicheskii Zhurnal, 77, (6), 63-67, (2005)
       
  37. Piletsky SA et al., Polymer cookery. 2. Influence of polymerization pressure and polymer swelling on the performance of molecularly imprinted polymers.
    Macromolecules, 37, (13), 5018-5022, (2004)
       
  38. Turner NW et al., Effect of the solvent on recognition properties of molecularly imprinted polymer specific for ochratoxin A.
    Biosensors and Bioelectronics, 20, (6), 1060-1067, (2004)
       
  39. Sergeyeva TA et al., In situ formation of porous molecularly imprinted polymer membranes.
    Macromolecules, 36, (19), 7352-7357, (2003)
       
  40. Piletsky SA et al., Polymer cookery: Influence of polymerization conditions on the performance of molecularly imprinted polymers.
    Macromolecules, 35, (19), 7499-7504, (2002)
       
  41. Subrahmanyam S et al., Bite-and-switch approach using computationally designed molecularly imprinted polymers for sensing of creatinine.
    Biosensors and Bioelectronics, 16, (9-12), 631-637, (2001)
       
  42. Bossi A et al., Surface-grafted molecularly imprinted polymers for protein recognition.
    Analytical Chemistry, 73, (21), 5281-5286, (2001)
       
  43. Piletska EV et al., A new reactive polymer suitable for covalent immobilisation and monitoring of primary amines.
    Polymer, 42, (8), 3603-3608, (2001)
       
  44. Piletsky SA et al., Recognition of ephedrine enantiomers by molecularly imprinted polymers designed using a computational approach.
    Analyst, 126, (10), 1826-1830, (2001)
       
  45. Piletsky SA et al., Substitution of antibodies and receptors with molecularly imprinted polymers in enzyme-linked and fluorescent assays.
    Biosensors and Bioelectronics, 16, (9-12), 701-707, (2001)
       
  46. Subrahmanyam S et al., Bite-and-switch approach to creatine recognition by use of molecularly imprinted polymers.
    Advanced Materials, 12, (10), 722-724, (2000)
       
  47. Piletsky SA et al., Surface functionalization of porous polypropylene membranes with molecularly imprinted polymers by photograft copolymerization in water.
    Macromolecules, 33, (8), 3092-3098, (2000)
       
  48. Piletsky SA et al., Chemical grafting of molecularly imprinted homopolymers to the surface of microplates. Application of artificial adrenergic receptor in enzyme-linked assay for b-agonists determination.
    Analytical Chemistry, 72, (18), 4381-4385, (2000)
       

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