Department of Biomolecular Electronics

Selected Publications:

2024

  • Arkhypova, V., Soldatkin, O., Soldatkin, A., Dzyadevych, S. Electrochemical Biosensors Based on Enzyme Inhibition Effect. Chemical Record, 2024, 24(2), e202300214
  • Soldatkin, O.O., Pyeshkova, V.M., Kucherenko, I.S., ...Soldatkin, A.P., Dzyadevych, S.V. Application of butyrylcholinesterase-based biosensor for simultaneous determination of different toxicants using inhibition and reactivation steps. Electroanalysis, 2024 doi: 10.1002/elan.202300400

2023:

  • Kucherenko, I.S., Farre, C., Raimondi, G., ... Soldatkin, A.P., Lagarde, F. A novel adenosine triphosphate (ATP) biosensor based on electrospun polymer nanofibers with entrapped hexokinase and glucose oxidase. Applied Nanoscience (Switzerland), 2023
  • Sobolevskyi, M.S., Soldatkin, O.O., Lopatynskyi, A.M., ...Dzyadevych, S.V., Soldatkin, A.P. Application of modified gold nanoparticles to improve characteristics of DNA hybridization biosensor based on surface plasmon resonance spectrometry. Applied Nanoscience (Switzerland), 2023, 13(12), pp. 7521–7529
  • Shkotova, L., Soldatkin, O., Arkhypova, V., ...Soldatkin, A., Dzyadevych, S. Biosensors Practical Application Book Chapter. Bioconversion of Wastes to Value-added Products, 2023, pp. 305–352

2022:

  • Kucherenko, I.S., Soldatkin, O.O., Dzyadevych, S.V., Soldatkin, A.P. Application of zeolites and zeolitic imidazolate frameworks in the biosensor development. Biomaterials Advances, 2022, 143, 213180
  • Dzyadevych, S.V., Soldatkin, O.O., Arkhypova, V.M., ... Soldatkin, A.P., Elskaya, A.V. Practical application of electrochemical enzyme biosensors. Biopolymers and Cell, 2022, 38(2), pp. 71–92
  • Soldatkin, O.O., Soldatkina, O.V., Piliponskiy, I.I., ... Dzyadevych, S.V., Soldatkin, A.P. Application of gold nanoparticles for improvement of analytical characteristics of conductometric enzyme biosensors. Applied Nanoscience (Switzerland), 2022, 12(4), pp. 995–1003

2021:

  • O. O. Soldatkin, O.V.Soldatkina, I.I. Piliponskiy, L.S.Rieznichenko, T.G.Gruzina, S.M.Dybkova, S.V.Dzyadevych, A.P.Soldatkin. Application of gold nanoparticles for improvement of analytical characteristics of conductometric enzyme biosensors. Applied Nanoscience.- 2021.- https://doi.org/10.1007/s13204-021-01807-6
  • D.Mruga, O.Soldatkin, K.Paliienko, A.Topcheva, N.Krisanova, D.Kucherenko, T.Borisova, S.Dzyadevych, A.Soldatkin. Optimization of the design and operating conditions of an amperometric biosensor for glutamate concentration measurements in the blood plasma. Electroanalysis.- 2021.- 33.- P. 1299-1307 https://doi.org/10.1002/elan.202060449
  • O.O.Soldatkin, I.S.Kucherenko, D.V.Siediuko, D.Yu.Kucherenko, S.V.Dzyadevych, A P.Soldatkin. Development of enzyme conductometric biosensor for dopamine determination in aqueous samples. Electroanalysis.-2021.- 33 (10).- P. 2187-2195 doi.org/10.1002/elan.202100257
  • M. Voloshyna, K. I. Soloshenko, V. O. Krasinko, I. V. Lych, L. V. Shkotova. Bacteriocins Lactobacillus — an alternative to antimicrobial drugs. Biopolymers and Cell. 2021. Vol. 37. N 2. P 85-97 http://dx.doi.org/10.7124/bc.000A4E
  • V.V. Balatskyi V.O. Vaskivskyi A. Moronova D. Avramets... D.Yu.Kucherenko, O.O. Soldatkin...Cardiac-specific -catenin deletion dysregulates energetic metabolism and mitochondrial function in perinatal cardiomyocytes. Mitochondrion, -2021, -Vol. 60, -Pages 59-69 https://doi.org/10.1016/j.mito.2021.07.005

2020:

  • I.S. Kucherenko O.O. Soldatkin S.V. Dzyadevych A.P. Soldatkin. Electrochemical biosensor based on multienzyme system: Main groups,advantages and limitations – A review. Analytica Chimica Acta, -2020, -Vol. 1111, -Pages 114-131 https://doi.org/10.1016/j.aca.2020.03.034
  • O.Y. Saiapina, Ye. Vronska, S. Dzyadevych, N. Jaffrezic-Renault. Clinoptilolite-based conductometric sensors for detection of ammonium in aqueous solutions. Electroanalysis – Vol. 32(9). – 2020. – 1993-2001. https://doi.org/10.1002/elan.202060026
  • Sergeyeva T.A. Yarynka D.V. Dubey L.V. Dubey I. Ya. Piletska E.V. Linnik R.P. Antonyuk M.Z. Ternovska T.K. Brovko O.O. Piletsky S.A. El’skaya A.V. Sensor Based on Molecularly Imprinted Polymer Membranes and Smartphone for Detection of Fusarium Contamination in Cereals. Sensors (Switzerland), vol. 20 (15), pp.4304-4324, 2020 https://doi.org/10.3390/s20154304
  • Bakhmachuk A. O., Gorbatiuk O. B., Rachkov A. E., Soldatkin A. P. Study on efficiency of oriented immobilization of antibodies on the SPR sensor surface using Staphylococcal protein A or its recombinant analogue. Biopolym. Cell. 2020; 36(4):271-278 http://dx.doi.org/10.7124/bc.000A32

2019:

  • Kucherenko, I.S., Soldatkin, O.O., Topolnikova, Y.V., Dzyadevych, S.V., Soldatkin, A.P. Novel Multiplexed Biosensor System for the Determination of Lactate and Pyruvate in Blood Serum. Electroanalysis 31(8), pp. 1625-1631, 2019
  • Kucherenko, I.S., Soldatkin, O.O., Kucherenko, D.Y., Soldatkina, O.V., Dzyadevych, S.V. Advances in nanomaterial application in enzyme-based electrochemical biosensors: a review. Nanoscale Advances 1(12), pp. 4560-4577, 2019
  • Soldatkina, O.V., Kucherenko, I.S., Soldatkin, O.O., V.M. Pyeshkova, O.Y. Dudchenko, Akata Kurç, B., Dzyadevych, S.V. Development of electrochemical biosensors with various types of zeolites. Applied Nanoscience (Switzerland) 9(5), pp. 737-747, 2019
  • Kucherenko, D.Y., Kucherenko, I.S., Soldatkin, O.O., (...), Dzyadevych, S.V., Soldatkin, A.P. A highly selective amperometric biosensor array for the simultaneous determination of glutamate, glucose, choline, acetylcholine, lactate and pyruvate. Bioelectrochemistry 128, pp. 100-108, 2019
  • Kucherenko, I.S., Topolnikova, Y.V., Soldatkin, O.O. Advances in the biosensors for lactate and pyruvate detection for medical applications: A review. TrAC - Trends in Analytical Chemistry 110, pp. 160-172
  • Sergeyeva T., Yarynka D.,Piletska E.,Lynnik R.,Zaporozhets O.,Brovko O.,Piletsky S.,El'skaya A. Development of a smartphone-based biomimetic sensor for aflatoxin B1 detection using molecularly imprinted polymer membranes. Talanta, 201, 2019, P. 204-210

2018:

  • Borisova, T., Kucherenko, D., Soldatkin, O., (...), Soldatkin, A., El'skaya, A. An amperometric glutamate biosensor for monitoring glutamate release from brain nerve terminals and in blood plasma. Analytica Chimica Acta 1022, pp. 113-123, 2018
  • Lopatynskyi, A.M., Malymon, Y.O., Lytvyn, V.K., (...), Soldatkin, A.P., Chegel, V.I. Solid and Hollow Gold Nanostructures for Nanomedicine: Comparison of Photothermal Properties. Plasmonics 13(5), pp. 1659-1669, 2018
  • Stepurska, K., Dzyadevych, S., Gridin, S. Potentiometric enzyme biosensor for aflatoxin B1 detection – Kinetic simulation. Sensors and Actuators, B: Chemical 259, pp. 580-586, 2018
  • Soldatkin, O.O., Marchenko, S.V., Soldatkina, O.V., (...), Kalchenko, V.I., Dzyadevych, S.V. Conductometric sensor with calixarene-based chemosensitive element for the arginine detection. Chemical Papers 72(11), pp. 2687-2697, 2018
  • Shkotova, L.V., Voloshina, I.M., Kovalchuk, V.V., Zhybak, M.T., Dzyadevych, S.V. Amperometric glucose biosensor with the IrNPs/ludox — modified enzyme matrix. Biopolymers and Cell 34(5), pp. 367-373, 2018
  • O.V. Soldatkina, O.O. Soldatkin, T.P. Velychko V.O. Prilipko M.A. Kuibida, S.V. Dzyadevych, Conductometric biosensor for determination in pharmaceutics, // Bioelectrochemistry, - 2018 - Vol. 124 - P. 40-46

2017:

  • Soldatkin O., Stepurska K., Arkhypova V., Soldatkin A., El’skaya A., Lagarde F., Dzyadevich S. Conductometric enzyme biosensor for patulin determination. Sensors and Actuators B 239 (2017):1010-1015
  • Bakhmachuk A., Gorbatiuk O., Rachkov A., Dons’koi B., Khristosenko R., Ushenin I., Peshkova V., Soldatkin A. Surface Plasmon Resonance Investigations of Bioselective Element Based on the Recombinant Protein A for Immunoglobulin Detection. Nanoscale Res. Lett. (2017) 12: 112. doi:10.1186/s11671-017-1903-5
  • Zhybak M., Fayura L., Boretsky Yu., Gonchar M., Sibirny A., Dempsey E., Turner A., Korpan Ya. Amperometric L-arginine biosensor based on novel recombinant arginine deiminase. Microchim. Acta. doi: 10.1007/s00604-017-2290-4. Published online 02 May 2017
  • Deni Chan, Barshan M., Korpan Ya., Brett C. L-lactate selective impedimetric bienzymatic biosensor based on lactate dehydrogenase and pyruvate oxidase. Electrochimica Acta 231 (2017) 209-215
  • Soldatkina O.V., Soldatkin O.O., B. Ozansoy Kasap, Kucherenko D., Kucherenko I., B. Akata Rurc, Dzyadevich S. A novel amperometric glutamate biosensor based on glutamate oxidase adsorbed on silicalite. Nanoscale Research Letters (2017) 12:260 doi 10.1186/s 11671-017-2026-8 (8 P.)
  • B. Ozansoy Kasap, Marchenko S., Soldatlin O.O., Dzyadevich S., B. Akata Rurc. Biosensors based on nano-gold/zeolite-modified ion selective field-effect transistors for creatinine detection. Nanoscale Research Letters (2017) 12:162 doi 10.1186/s 11671-017-1943-x (11 P.)
  • Sergeyeva A., Yarinka D., Piletska E., Linnik R., Zaporozhets O., Brovko O., Piletsky S., El’skaya A. Fluorescent sensor systems based on nanostructured polymeric membranes for selective recognition of aflatoxin B1. Talanta, 2017, vol. 175:101-107
  • Zinchenko O. A., Shkotova L. V., Kulynych T. U., Zinkina O. O., Soldatkin A. P. Improvement of amperometric transducer selectivity using nanosized phenylenediamine films. Nanoscale Research Letters. 2017. vol. 12, art. №.594
  • Matsishin M., Kucherov A., Ushenin Iu., Lyapin A., Lopatynskyi A., Chegel V., Rachkov A. Surface plasmon resonance investigation of DNA hybridization on a sensor surface using gold nanoparticles modified by specific oligonucleotides. Biopolymers and Cell (2017) 33, N 4. C. 268–279
  • Marchenko S., Piliponskiy I., Mamchur O., Soldatkin O.O., Kucherenko I.S., Berna Ozansoy Kasap, Burcu Akata Kurc, Dzyadevich S. Soldatkin A.P. Development of a new biosensor by adsorption of creatinine deiminase on monolayers of micro- and nanoscale zeolites. In Nanophysics, Nanomaterials, Interface studies, and Applications / Ed. by O. Fesenko, L.Yatsenko. - Springer Proceedings in Physics 195 – Springer International Publishing AG 2017 doi 10.1007/978-3-319-56422-7. Chapter 42:573-584
  • Kucherenko I.S., Carole Farre, Gaetan Raimondi, Carole Chaix, N. Jaffrezic-Renault, Soldatkin O.O. Soldatkin A.P. Florence Lagarde. Gold nanoparticle/polymer/ enzyme nanocomposite for the development of adenosine triphosphate biosensor. Ibid. – Chapter 39:533-545
  • O.V. Soldatkina, I.S. Kucherenko, V.M. Pyeshkova, S.A. Alekseev, O.O. Soldatkin, S.V. Dzyadevych, Improvement of amperometric transducer selectivity using nanosized phenylenediamine films, // Nanoscale Research Letters – 2017 – Vol. 12, art. №.594.

2016:

  • Soldatkin O.O. Stepurska K., Arkhypova V., Soldatkin A.P., El’skaya A., Lagarde F., Dzyadevich S. Conductometric enzyme biosensor for patulin determination. Sensors and Actuators B. 2017, 239: 1010-1015.
  • M. Zhybak, V. Beni, M Vagin, E. Dempsey, A. Turner, Y. Korpan. Creatinine and urea biosensors based on a novel ammonium ion-selective copper-polyaniline nano-composite. Biosensors and Bioelectronics. 2016, 77:505-511.
  • Marchenko S., Soldatkin O.O., Berna Ozansoy Kasap, Burcu Akata Kurc, Soldatkin A.P., Dzyadevych S. Creatinine deiminase adsorption onto silicalite-modified pH-FET for creation of new creatinine-sensitive biosensor. Nanoscale Research Letters. 2016, DOI 10.1186/s11671-016-1386-9, 7 pages.
  • Zhybak M., Vagin M., Valerio Beni, Xianjie Liu, E. Dempsey, A. Turner, Ya. Korpan. Direct detection of ammonium ion by means of oxygen electrocatalysis at a copper-polyaniline composite on a screen-printed electrode. Microchimica Acta. 2016, 183: 1981-1987.
  • Velychko T., Soldatkin O.O., Melnyk V., Marchenko S., Kirdeciler S.K., Akata B., Soldatkin A.P., El’skaya A., Dzyadevych S. A novel conductometric urea biosensor with improved analytical characteristics based on recombinant urease adsorbed on nanoparticle of silicalite. Nanoscale Research Letters. 2016, DOI 10.1186/s11671-016-1310-3, 6 pages.
  • Matsishin M., Rachkov A., Errachid A., Dzyadevych S., Soldatkin A.P.. Development of impediometric DNA biosensor for selective detection and discrimination of oligonucleotide sequences of the rpoB gene of Mycobacterium tuberculosis. Sensors and Actuators B-Chemical. 2016, 222: 1152-1158.
  • Kucherenko I., Kucherenko D., Soldatkin O.O., Lagarde F., Dzyadevych S., Soldatkin A.P. A novel conductometric biosensor based on hexokinase for determination of adenosine triphosphate. Talanta. 2016, 150: 469-475.
  • Shkotova L., Pechniakova N., Kukla O., Dzyadevych S. Thin-film amperometric multibiosensor for simultaneous determination of lactate and glucose in wine. Food Chemistry. 2016, 197:972-978.
  • O.Y. Dudchenko, V.N. Pyeshkova, O.O. Soldatkin, B. Akata, B. O. Kasap, A.P Soldatkin, S.V. Dzyadevych Development of silicalite/ glucose oxidase-based biosensor and its application for glucose determination in juices and nectars, // Nanoscale Research Letters – 2016. – Vol. 11, art. №. 59
  • Saiapina O.Y., Kharchenko S, Vishnevskii S, Pyeshkova V.M., Kalchenko V, Dzyadevych S.V. Development of conductometric sensor based on 25,27-di-(5-thiooctyloxy)calix[4]arene-crown-6 for determination of ammonium. Nanoscale Research Letters, 2016, 11:105.

2015:

  • Kucherenko I, Soldatkin OO, Berna O Kasap, Salih Kaan Kirdeciler, Burku Akata Kurc, Jaffrezic-Renault NJ, Soldatkin AP, Lagarde F, Dzyadevich S. Nanosized zeolites as a perspective material for conductometric biosensors creation. Nanoscale research letters (2015) 10:209.
  • Nedjla Zehani, Rochdi Kherrat, Dzyadevych S, Jaffrezic-Renault NJ. A microconductometric biosensor based on lipase extracted from Candida rugosa for direct and rapid detection of organophosphate pesticides. Intern. J. Environ. Anal. Chem., 2015.
  • Pyeshkova V, Dudchenko O, Soldatkin OO, Berna Ozansoy Kasap, Lagarde F, Burku Akata Kurc, Dzyadevich S. Application of silicalite-modified electrode for the development of sucrose biosensor with improved characteristics. Nanoscale Research Letters (2015) 10:149.
  • Mazurenko I, Tananaiko O, Biloivan O, Zhybak M, Pelyak I, Zaitsev V, Etienne M, Walcarius A. Amperometric biosensor for choline based on gold screen-printed electrode modified with electrochemically-deposited silica biocomposite. Electroanalysis, 2015, 27, 1685-1692.
  • Anca Florea, ZhenZhong Guo, Cecilia Cristea, Francois Bessueille, Francis Vocanson, Vfrancois Goutaland, Dzyadevych S, Robert Sandulescu, Jaffrezic-Renault NJ. Anticancer drug detection using a highly sensitive molecularly imprinted electrochemical sensor based on an electropolymerized microporous metal organic framework. Talanta 138 (2015) 71-76.
  • Soldatkin OO, Shelyakina M, Arkhypova V, Esin Soy, Salih Kaan Kirdeciler, Berna O Kasap, Lagarde F, Jaffrezic-Renault NJ, Burku Akata Kurc, Soldatkin AP, Dzyadevich S. Nano- and microsized zeolites as a perspective material for potentiometric biosensors creation. Nanoscale Research Letters (2015) 10:59.
  • Soldatkin OO, Nazarova A, Krisanova N, Borysov A, Kucherenko D, Kucherenko I, Pozdnyakova N, Soldatkin AP, Borysova T. Monitoring of the velocity of high-affinity glutamate uptake by isolated brain nerve terminals using amperometric glutamate biosensor. Talanta, -2015, -Vol. 135, -P. 67-74.
  • Marchenko S, Kucherenko I, Hereshko A, Panasiuk I, Soldatkin OO, El'skaya A, Soldatkin AP. Application of potentiometric biosensor based on recombinant urease for urea determination in blood serum and hemodialyzate. Sensors and Actuators B: Chemical, 2015, V. 207, P. 981-986.
  • Syshchyk O, Skryshevsky V, Soldatkin OO, Soldatkin AP. Enzyme biosensor systems based on porous silicon photoluminescence for detection of glucose, urea and heavy metals. Biosensors and Bioelectronics, - 2015, - Vol. 66, - P. 89-94.
  • Kucherenko I, Soldatkin OO, Lagarde F, Jaffrezic-Renault N, Dzyadevich S, Soldatkin AP. Determination of total creatine kinase activity in blood serum using an amperometric biosensor based on glucose oxidase and hexokinase. Talanta 144 (2015) 604-611.
  • Dridi F, Marrakchi M, Gargouri M, Garcia-Cruz A, Dzyadevych S, Vocanson F, Saulnier J, Jaffrezic-Renault N, Lagarde F. Thermolysin entrapped in a gold nanoparticles/polymer composite for direct and sensitive conductometric biosensing of ochratoxin A in olive oil. Sensors and actuators B: Chemical 221 (2015) 480-490.
  • Stepurska K, Soldatkin OO, Arkhypova V, Soldatkin AP, Lagarde F, Jaffrezic-Renault N, Dzyadevich S. Development of novel enzyme potentiometric biosensor based on pH-sensitive field-effect transistors for aflatoxin B1 analysis in real samples. Talanta 144 (2015) 1079-1084.
  • Arkhypova V. Enzyme biosensor based on ISFETs for determination of glycoalkaloids content in potato. Living organisms and bioanalytical approaches for detoxification and monitoring of toxic compounds/ Ed. A. Sibirny, D. Fedorovych, M. Gonchar, D. Grabek-Lejko. - University of Rzeszow, Institute of Cell Biology NASU: 2015. – P. 99-112.
  • Gonchar M, Zakalska O, Zakalskiy A, Mounir Ben Ali, Nadia Zine, Cherif Dridi, Abdelhamid Errachid, Jaffrezic-Renault N, Korpan Ya. Impedance response to toxic methylamine of recombinant primary amine oxidase coupled with mercaptohexadecanoic acid monolayer. Ibid, P. 125-136.
  • Zhybak M, Valerio Beni, Vagin M, Dempsey E, Turner A, Korpan Ya. Creatinine and urea biosensors based on a novel ammonium ion-selective copper-polyaniline nano-composite. Biosensors and Bioelectronics, 2015,.
  • Soldatkin OO, Stepurska KV, Kucherenko IS, Arkhypova VM Dzyadevych SV, Soldatkin AP. Feasibility of application of conductometric biosensor based on acetylcholinesterase for the inhibitory analysis of toxic compounds of different nature. Analytica Chimica Acta, - 2015, - Vol. 854, - P. 161-168.
  • Soldatkin OO, Marchenko SV, Kucherenko IS, Soldatkin AP. Potentiometric biosensor system based on recombinant urease and creatinine deiminase for urea and creatinine determination in blood dialysate and serum. Electroanalysis - 2015, -Vol. 27, - P. 1699-1706.
  • Rachkov AE, Bakhmachuk АO, Gorbatiuk OB, Matsishin MJ, Khristosenko RV, Ushenin IuV, Soldatkin AP. SPR investigations of the formation of intermediate layer of the immunosensor bioselective element based on the recombinant Staphylococcal protein. Biopolymers and Cell. 2015. Vol. 31. N 4. P. 301–308.
  • S Dzyadevych, N Jaffrezic-Renault Conductometric enzyme biosensors. Electrochemical Biosensors / Ed S.Cosnier. - Singapore: Pan Stanford Publishing, 2015. - P. 247-288.
  • Kucherenko IS, Soldatkin OO, B Ozansoy Kasap, B Akata Kurç, Melnyk VG, Semenycheva LM, Soldatkin AP, Dzyadevych SV Biosensors based on urease, adsorbed on nickel, platinum, and gold conductometric transducers modified with silicalite and nanozeolites. Springer Proceedings in Physics.- 2015.-156, P. 271-287.
  • Zehani N, Fortgang P, Saddek Lachgar M, Baraket A, Arab M, Dzyadevych SV, Kherrat R, Jaffrezic-Renault N. Highly sensitive electrochemical biosensor for bisphenol A detection based on a diazonium-functionalized boron-doped diamond electrode modified with a multi-walled carbon nanotube-tyrosinase hybrid film. Biosensors and Bioelectronics.- 2015.- V. 74.- P.830-836.
  • Gorbatiuk OB, Bahmachuk AO, Dubey LV, Usenko MO, Irodov DM, Okunev OV, Kostenko OM, Rachkov AE, Kordium VA. Recombinant Staphylococcal protein A with cysteine residue for preparation of affinity chromatography stationary phase and immunosensor applications. Biopolymers and Cell. 2015, 31, N 2, 115–122.
  • Voitovich ID, Lebyedyeva TS, Rachkov OE, Gorbatiuk OB, Shpylovyy PB. Anodic alumina-based nanoporous coatings for sensory applications. In Nanoplasmonics, Nano-Optics, Nanocomposites, and Surface Studies / Ed. by O. Fesenko, L.Yatsenko. - Springer Proceedings in Physics, 167, 2015. - Chapter 29, p. 423-431.
  • Borkovska L, Korsunska N, Stara T, Kolomys O, Strelchuk V, Rachkov O, Kryvko A. Micro-Raman and micro-photoluminescence study of bio-conjugated core–shell CdSe/ZnS nanocrystals. Physica B: Condensed Matter, 2014, 453, 75-80.
  • K.V. Stepurska, O.O. Soldatkin, I.S. Kucherenko, V.M. Arkhypova, S.V. Dzyadevych, A.P. Soldatkin, Feasibility of application of conductometric biosensor based on acetylcholinesterase for the inhibitory analysis of toxic compounds of different nature, // Analytica Chimica Acta, - 2015, - Vol. 854, - Pages 161-168
  • S.V. Marchenko, I.S. Kucherenko, O.O. Soldatkin, A.P. Soldatkin, Potentiometric biosensor system based on recombinant urease and creatinine deiminase for urea and creatinine determination in blood dialysate and serum, // Electroanalysis - 2015, -Vol. 27, - Pages 1699-1706
  • A.Florea, Z.Guo, C.Cristea, F.Bessueille, F.Vocanson, F.Goutaland, S.Dzyadevych, R.Săndulescu, N.Jaffrezic-Renault. Anticancer drug detection using a highly sensitive molecularly imprinted electrochemical sensor based on an electropolymerized microporous metal organic framework. Talanta, 2015, 138, P.71–76.
  • S.Dzyadevych, N.Jaffrezic-Renault. Conductometric enzyme biosensors. In: S.Cosnier (ed), Electrochemical Biosensors. Singapore: Pan Stanford Publishing, 2015, P.247-288.

2014:

  • Sergeyeva TA, Chelyadina DS, Gorbach LA, ...El'skaya AV. Colorimetric biomimetic sensor systems based on molecularly imprinted polymer membranes for highly-selective detection of phenol in environmental samples. Biopolymers and Cell. 2014;30(3):209-216.
  • Soldatkin OO, Kasap OB, Akata B,...El'skaya AV. Elaboration of new method of enzyme adsorption on silicalite and nano beta zeolite for amperometric biosensor creation. Biopolymers and Cell. 2014;30(4):291-298.
  • Shelyakina M, Soldatkin OO., Arkhypova V, et al. Study of zeolite influence on analytical characteristics of urea biosensor based on ion-selective field-effect transistors. Nanoscale Research Letters. 2014; 9:124.
  • Kukla O, Soldatkin OO, Pavluchenko A, et al. Toxicity analysis of real water samples of different origin with ISFET multibiosensor. Biochemistry and Biophysics. 2014; 2(1):7-12.
  • Dzyadevych S, Jaffrezic-Renault N. Conductometric biosensors. In: Biological identification. DNA amplification and sequencing, optical sensing, lab-on-chip and portable systems / Ed. by R.P. Schaudies. Woodhead Publishing Series in Electronic and Optical Materials: 2014; 59:153-193.
  • Sheliakina M, Arkhypova V, Soldatkin OO, et al. Urease-based ISFET biosensor for arginine determination. Talanta. 2014; 121:18-23.
  • Soldatkin OO, Kucherenko I, Marchenko S, et al. Application of enzyme/zeolite sensor for urea analysis in serum. Materials science and engineering C. 2014; 42:155-160.
  • Kucherenko I, Didukh D, Soldatkin OO, Soldatkin AP, et al. Amperometric biosensor system for simultaneous determination of adenosine-5’-triphosphate and glucose. Analytical chemistry. 2014; 86:5455-5462.
  • Kucherenko I, Soldatkin OO, Berna O. Kasap, et al. Biosensors based on urease adsorbed on nickel, platinum and gold conductometric trznsducers modified with silicalite and nanozeolites. Chapter 22 // Nanocomposites, nanophotonics, nanobiotechnology, and applications / Eds. Fesenko O, Yatsenko L. – Switzerland: Springer, Springer proceedings in physics. 2014; 156:271-287.
  • Nedjla Zehani, Dzyadevych S, Rochdi Kherrat, N.Jaffrezic-Renault. Sensitive impedimetric biosensor for direct detection of diazinin based on lipases. Frontiers in chemistry. Analytical chemistry. 2014;2:1-7.
  • Sergeyeva TA, Chelyadina DS, Gorbach LA, et al. Colorimetric biomimetic sensor systems based on molecularly imprinted polymer membranes for highly-selective detection of phenol in environmental samples. Biopolymers and Cell. 2014; 30(3):209-216.
  • Soldatkin OO, Kasap OB, Akata B, et al. Elaboration of new method of enzyme adsorption on silicalite and nano beta zeolite for amperometric biosensor creation. Biopolymers and Cell. 2014;30(4):291-298.
  • Tekaya N, Saiapina O, H. Ben Ouada, et al. Bi-enzymatic conductometric biosensor for detection of heavy metal ions and pesticides in water samples based on enzymatic inhibition in Arthrospira platensis. Journal of Environmental Protection. 2014;5:441–453.
  • Rachkov A, Matsishin M, Chegel V, et al. Investigations of aggregation stability of gold nanoparticles at their interactions with compounds bearing thiol and/or amino functional groups. Chemical Sensors. 2014;4:16.
  • Matsishin M, Rachkov A, Losytskyy M, Soldatkin AP. Experimental approach using covalently attached fluorophore for quantification of oligonucleotide immobilization on gold nanoparticles. Colloids and Interface Science Communications. 2014;1:35-38.

2013:

  • O.O.Soldatkin, I.S.Kucherenko, M.K.Shelyakina, E.Soy, K.Kirdeciler, S.Öztürk, B.Akata, S.V.Dzyadevych, A.P.Soldatkin. Application of different zeolites for improvement of the characteristics of a pH-FETs biosensor based on immobilized urease Electroanalys. –2013, 25, No. 2. –P. 468–474.
  • A.P. Soldatkin, S. Dzyadevych, T. Sergeeva, Y. Korpan, V. Arkhypova, O. Biloivan, O.O. Soldatkin, L. Shkotova, O. Zinchenko, V. Peshkova, O. Saiapina, S. Marchenko, A. El’skaya. Biosensors. A quarter of a century of R&D experience Biopolymers and cell. -2013. –V. 29. N 3. –P. 188–206.
  • M. Singh, M. Holzinger, O. Biloivan, S. Cosnier. 3D-nanostructured scaffold electrodes based on single-walled carbon nanotubes and nanodiamonds for high performance biosensors Carbon. – 2013. –61. –P, 349–356.
  • O.O.Soldatkin, V. Pyeshkova, O. Saiapina, I. Kucherenko, O. Dudchenko, V. Melnyk, O. Vasylenko, L. Semenycheva, A.P.Soldatkin, S. Dzyadevych. Development of conductometric biosensor array for simultaneous determination of maltose, lactose, sucrose and glucose Talanta. –115. –2013. –P. 200–207.
  • Esin Soy, Sezin Galioglu, O.O. Soldatkin, S. Dzyadevych, Ju. Warzywoda, A. Sacco Jr., Burcu Akata. Direct evidence of advantage of using nanosized zeolite Beta for ISFET-based biosensor construction J. Nanopart. Res. (2013) 15: 1645 (12 pages) DOI 10.1007/s11051-013-1645-y
  • O.O. Soldatkin, O. Burdak, T. Sergeeva, V. Arkhypova, S. Dzyadevych, A.P. Soldatkin. Acetylcholinesterase-based conductometric biosensor for determination of aflatoxin B1 Sensors and Actuators B: Chemical. – 2013. –188. –P. 999–1003.
  • J. Chermiti, M. Ben Ali, C. Dridi, N. Jaffrezic-Renault, Y. Korpan. Site-binding model as a basis for numerical evaluation of analytical parameters of capacitance-biosensors for formaldehyde and methylamine detection Sensors and Actuators B: Chemical. – 2013. –188. –P. 824–830.
  • A. Kosogor, V. L’vov, M. Matsishin. Modelling of hysteresis loops taken during the stress- and emperature-induced martensitic transformations Phase Transitions: A Multinational Journal. –2013. –V. 86, 8. –P. 796–810.
  • T.A.Sergeyeva, L.A.Gorbach, E.V.Piletska, S.A.Piletsky, O.O.Brovko, L.A.Honcharova, O.D.Lutsyk, L.M.Sergeeva, A.V.El’skaya. Colorimetric test-systems for creatinine detection based on composite molecularly imprinted polymer membranes Analytica Chimica Acta. –2013. –V. 770. –P.161–168.
  • E.V.Piletska, J.Kumire, T.Sergeyeva, S.Piletsky. Rational design and development of affinity adsorbents for analytical and biopharmaceutical applications Journal of Chinese Advanced Materials Society. –2013. –V. 1, No. 3. –P. 229–244.
  • A. Rachkov, S. Patskovsky, A. Soldatkin, M. Meunier. Discrimination of single base mismatched oligonucleotides related to the rpoB gene of Mycobacterium tuberculosis using surface plasmon resonance biosensor Biotechnology and Applied Biochemistry. –2013. –V. 60, Issue 4. – P. 453 –458.
  • L. Borkovska, N. Korsunska, T. Stara, O. Kolomys, V. Strelchuk, O. Rachkov, T. Kryshtab. The mechanism of the photoluminescence changes in bio-conjugated CdSe/ZnS quantum dots Applied Surface Science. –2013. –281. –P. 79–83.

2012 рік:

  • O.A.Zinchenko, S.V.Marchenko, T.A.Sergeyeva, A.L.Kukla, A.S.Pavlyuchenko, E.K.Krasyuk, A.P.Soldatkin, A.V.El’skaya. Application of creatinine-sensitive biosensor for hemodialysis control // Biosensors and Bioelectronics. – 2012.- V. 35.- P. 466-469.
  • O.Y.Saiapina, N.Jaffrezic-Renault, A.P.Soldatkin, S.V.Dzyadevych. Development and optimization of novel conductometric bi-enzyme biosensor for L-arginine determination // Talanta. - 2012. - V. 92.- P. 58-64.
  • О.О.Soldatkin, I.S.Kucherenko, V.M.Pyeshkova, A.L.Kukla, N.Jaffrezic-Renault, A.V.El’skaya, S.V.Dzyadevych, A.P.Soldatkin. Conductometric biosensor based on three-enzyme system for selective determination of heavy metal ions // Bioelectrochemistry. - 2012. - V.30.- P. 25-30.
  • Rogaleva N.S., Shkotova L.V., L’vova O.V., Garbuz V.V., Muratov V.B., Duda T.I., Vasil’ev O.O, Korpan Y.I, Biloivan O.A. Amperometric biosensor modified with multiwalled carbon nanotubes for glucose determination // Journal of Biotechnology (Ukraine). – 2012. – V. 5, #1. – P. 53-61.
  • O.O.Soldatkin, I.S. Kucherenko, V.M. Pyeshkova, A.L. Kukla, N. Jaffrezic-Renault, A.V. El’skaya, S.V. Dzyadevych, A.P. Soldatkin Novel conductometric biosensor based on three-enzyme system for selective determination of heavy metal ions, // Bioelectrochemistry, - 2012 - Vol. 83 - P. 25-30
  • I.S. Kucherenko, O.O. Soldatkin, E. Soy, K. Kirdeciler, S. Öztürk, B. Akata, N. Jaffrezic-Renault, A.P. Soldatkin, S.V. Dzyadevych Effect of different modifications of BEA-zeolites on operational characteristics of conductometric biosensor, // Materials Science and Engineering: C, 2012, Vol. 32, - Pages 1648-1653
  • I.S. Kucherenko, O.O. Soldatkin, B. O. Kasap, S. Öztürk, B. Akata, A.P. Soldatkin, S.V. Dzyadevych, Elaboration of urease adsorption on silicalite for biosensor creation. Electroanalysis - 2012, -Vol. 24, No. 6, - P. 1380-1385
  • E. Soy, V. Arkhypova, O.O. Soldatkin, M. Shelyakina, S. Dzyadevych, J. Warzywoda, A. Sacco Jr., B. Akata Investigation of characteristics of urea and butyrylcholine chloride biosensors based on ion-selective field-effect transistors modified by the incorporation of heat-treated zeolite Beta crystals , // Materials Science and Engineering: C, - 2012, - Vol. 32, - Pages 1835-1842
  • N.Meini, C.Farre, C.Chaix, K.Kherrat, S.Dzyadevych, N.Jaffrezic-Renault. Impedimetric aptasensor for thrombin detection. Sensors and Actuators B, 2012, 166-167, P. 715-720.

2011 рік:

  • O.O.Soldatkin, E.Soy, A.Errachid, N.Jaffrezic-Renault, B.Akata, A.P.Soldatkin, S.V.Dzyadevych. Influence of composition of zeolite/enzyme nanobiocomposites on analytical characteristics of urea biosensor based on ion-selective field-effect transistors // Sensor Letters. - 2011. - V.9. - P. 2320-2326.
  • Rogaleva N., Korpan Y., Biloivan O. (2011) Glucose biosensor based on screen-printed electrodes and glucose oxidase layer modified by MWCNT-NH2 // Sensor Letters. – 2011. – V. 9, #6. – P. 2356-2359.
  • A. Rachkov, S. Patskovsky, A. Soldatkin, M. Meunier. Surface plasmon resonance detection of oligonucleotide sequences of the rpoB genes of Mycobacterium tuberculosis // Talanta. – 2011. - V.8. – P. 2094-2099.
  • S.K. Kirdeciler, E. Soy, S. Öztürk, I. Kucherenko, O. Soldatkin, S. Dzyadevych, B. Akata A novel urea conductometric biosensor based on zeolite immobilized urease // Talanta, - 2011, -Vol. 85, - P. 1435-1441
  • O.Y. Saiapina, V.M. Pyeshkova, O.O.Soldatkin, V.G. Melnik, B. Akata Kurç, A. Walcarius, S.V. Dzyadevych, N. Jaffrezic-Renault, Conductometric enzyme biosensors based on natural zeolite clinoptilolite for urea determination, // Material Science and Engineering C. - 2011, - Vol. 31, -P. 1490-1497
  • S.Bourigua, S.El Ichi, H.Korri-Youssoufi, A.Maaref, S.Dzyadevych, N.Jaffrezic Renault. Electrochemical sensing of trimethylamine based on polypyrrole–flavin-containing monooxygenase (FMO3) and ferrocene as redox probe for evaluation of fish freshness. Biosensors and Bioelectronics, 2011, 28, P.105-111.

2010:

  • Sergeyeva T., Gorbach L., Slinchenko O., Goncharova L., Piletska O., Brovko O., Sergeeva L., El’ska G. Towards development of colorimetric test- systems for phenols detection based on computationally-designed molecularly imprinted polymer membranes // Material Science and Engineering C. – 2010. – V.30. – P. 431–436.
  • T. A. Sergeyeva, O. A. Slinchenko, L. A. Gorbach, V. F. Matyushov, O. O. Brovko, S. A. Piletsky, L. M. Sergeeva, G. V. El’ska, Catalytic molecularly imprinted polymer membranes: Development of the biomimetic sensor for phenols detection // Anal. Chim. Acta. – 2010. – 659, N 1–2. – P. 274–279.
  • Korpan Y., Soldatkin O., Sosovska O., Klepach H., Csöregi E., Vocanson F., Jaffrezic-Renault N., Gonchar M. Formaldehyde-sensitive conductometric sensors based on commercial and recombinant formaldehyde dehydrogenase // Microchimica Acta. – 2010. – V. 170. – P. 337-344.
  • T.B.Goriushkina, L.V.Shkotova, G.Z.Gayda, H.M.Klepach, M.V.Gonchar, A.P. Soldatkin, S.V.Dzyadevych Amperometric biosensor based on glycerol oxidase for glycerol determination // Sensors and Electronics B. - 2010. - V.144. - P. 361-367.
  • S.Bourigua, M.Hnaien, F.Bessueille, F.Lagarde, S.Dzyadevych, A.Maaref, J.Bausells, A.Errachid, N.Jaffrezic Renault. Impedimetric immunosensor based on SWCNT-COOH modified gold microelectrodes for label-free detection of Deep Venous Thrombosis biomarker. Biosensors & Bioelectronics, 2010, 26, P.1278-1282.

2009:

  • Sosovska O., Korpan Y., Vocanson F., Jaffrezic-Renault N. Conductometric chemosensors based on calixarenes for determination of amines and amino acids // Sensor Letters. – 2009. – V. 7. – P. 989-994.
  • O.O. Soldatkin, O.M. Schuvailo, S. Marinesco, R. Cespuglio, A.P. Soldatkin Microbiosensor based on glucose oxidase and hexokinase co-immobilised on platinum microelectrode for selective ATP detection // Talanta. – 2009.- V.78 .- P. 1023–1028.
  • T.B.Goriushkina, A.P.Soldatkin S.V.Dzyadevych Application of amperometric biosensors for analysis of ethanol, glucose, and lactate in wine // Journal of Agricultural and Food Chemistry.-2009.-V. 57.- P.6528-6535.
  • A. Rachkov, Yu. Holodova, Yu. Ushenin, D. Miroshnichenko, G. Telegeev, A. Soldatkin Development of Bioselective Element of SPR Spectrometer for Monitoring of Oligonucleotide Interactions and Comparison with Thermodynamic Calculations // Sensor Letters. 2009 – V. 7, Issue 5.- Р. 957-961.

2008:

  • S.V.Dzyadevych, N.Jaffrezic-Renault. Conductometric Microbiosensors for Environmental Monitoring // Sensors. – 2008. – V.8. – P. 2569-2588.
  • V.N.Arkhypova, S.V.Dzyadevych, N.Jaffrezic-Renault, C.Martelet, A.P.Soldatkin. Biosensors for assay of glycoalkaloids in potato tubers // Applied Biochemistry and Microbiology. - 2008. - 44,N3. - P. 314-318.
  • T. A. Sergeyeva, E. V. Piletska, S. A. Piletsky, L. M. Sergeyeva, O. O. Brovko, G. V. El’ska, Data on structure and recognition properties of the template-selective binding sites in semi-IPN-based molecularly imprinted polymer membranes // Mater. Sci. Eng. C. – 2008. – 28. – P. 1472–1479.
  • P.Pernot, J.-P.Mothet, O.Schuvailo, A.Soldatkin, L.Pollegioni, M.-T.Adeline, R.Cespuglio, S.Marinesco Characterization of a yeast D-amino acid oxidase microbiosensor for D-serine detection in the central nervous system // Analytical Chemistry, 2008, V. 80, P.1589-1597.
  • S.V.Dzyadevych, V.N.Arkhypova, A.P. Soldatkin, A.V.El’skaya, C.Martelet, N.Jaffrezic-Renault Amperometric enzyme biosensors: Past, present and future // ITBM-RBM 29 (2008) 171-180.
  • O.O. Soldatkin, V.M. Peshkova, S.V. Dzyadevych, A.P. Soldatkin, N. Jaffrezic-Renault, A.V. El’skaya. Novel sucrose three-enzyme conductometric biosensor, Material Science and Engineering C. -2008.- V. 28.-P. 959-964.
  • L.V.Shkotova, T.B.Goryushkina, C.Tran-Minh, J.-M.Chovelon, A.P.Soldatkin, S.V.Dzyadevych. Amperometric biosensor for lactate analysis in wine and must during fermentation. Material Science and Engineering C, 2008, 28, P. 943-948.
  • S.V.Dzyadevych, N.Jaffrezic-Renault. Conductometric Microbiosensors for Environmental Monitoring. Sensors, 2008, 8, P. 2569-2588.

2007:

  • S.V.Dzyadevych, V.N.Arkhypova, A.P.Soldatkin, A.V.El’skaya, C.Martelet, N.Jaffrezic-Renault. Conductometric enzyme biosensors. Handbook of Biosensors and Biochips // Eds R..S.Marks, C.R.Lowe, D.C.Culen, H.H.Weetall, I.Karube.- Wiley-Interscience. - 2007. - P. 379-394.
  • T. A. Sergeyeva, O. O. Brovko, E. V. Piletska, S. A. Piletsky, L. A. Goncharova, L. V. Karabanova, L. M. Sergeyeva, A. V. El’skaya, Porous molecularly imprinted polymer membranes and polymeric particles // Anal. Chim. Acta. – 2007. – 582. – P. 311–319.
  • O.M. Schuvailo, S.Gaspar, A.P. Soldatkin, E.Csoregi Ultramicrobiosensor for the selective detection of glutamate // Electroanalysis 19 (2007) No 1, P. 71-78.
  • O. A. Biloivan, S.V. Dzyadevych, A.V. El’skaya, N. Jaffrezic-Renault, A., N. Zine, J. Bausells, J. Samitier, A. Errachid, Development of bi-enzyme microbiosensor based on solid-contact ion-selective microelectrodes for protein detection // Sensor and ActuatorsB.—2007.- 123.- P.1096-1100.

2006:

  • S.V.Dzyadevych, A.P.Soldatkin, A.V.El’skaya, C.Martelet, N.Jaffrezic-Renault. Enzyme biosensors based on ion-selective field-effect transistors // Analytica Chimica Acta. - 2006. – V.568. - P. 248-258.
  • A.P.Soldatkin, S.V.Dzyadevych, A.V.El’skaya, C.Martelet, N.Jaffrezic-Renault. Pathways for improving potentiometric and conductometric enzymatic biosensors // In: Encyclopedia of Sensors (Eds. C.A.Grimes, E.C.Dickey, M.V.Pishko). - California, USA: American Scientific Publishers. - 2006. - V.7. - P. 331-348.
  • Ben Ali M., Korpan Y., Gonchar M., El’skaya A., Ali Maaref M., Jaffrezic-Renault N., Martelet C. Formaldehyde assay by capacitance versus voltage and impedance measurements using bi-layer bio-recognition membrane // Biosensors & Bioelectronics. – 2006. – V. 22. – P. 575-581.
  • Korpan Y., Raushel F.M., Nazarenko E.A., Soldatkin A.P., Jaffrezic-Renault N., Martelet C. Sensitivity and Specificity Improvement of an Ion Sensitive Field Effect Transistors-Based Biosensor for Potato Glycoalkaloids Detection // Journal of Agricultural and Food Chemistry. – 2006. – V. 54, № 3. – P. 707-712.
  • L.V.Shkotova, A.P.Soldatkin, M.V.Gonchar, W.Schuhmann, S.V.Dzyadevych. Amperometric biosensor for ethanol detection based on alcohol oxidase immobilized within electrochemically deposited resydrol film // Material Science and Engineering C. - 2006. - V.26. - P. 411-414.
  • O.A. Biloivan, S.V. Verevka, S.D. Dzyadevich, N. Jaffrezic-Renault, N. Zine, J. Bausells, J. Samitier, A. Errachid Protein detection based on microelectrodes with the Ppy[3,3-Co(1,2-C2B9H11)]2 solid contact and immobilized proteinases: preliminary investigations. // MaterialScience & Engineering C. – 2006.- V. 26.- P. 574-577.
  • O.M. Schuvailo, O.O. Soldatkin, A. Lefebvre, R. Cespuglio, A.P. Soldatkin Highly selective microbiosensors for in vivo measurement of glucose, lactate and glutamate // Anal. Chim. Acta, -2006, -Vol. 573-574. -P.110-116.
  • X. Wang, S.V.Dzyadevych, J.-M.Chovelon, N.Jaffrezic-Renault, C.Ling, X.Siqing. Development of conductometric nitrate biosensor based on Methyl viologen/Nafion® composite film. Electrochemistry Communications.- 2006, 8.- P.201-205.
  • Xuejiang Wang, S.V.Dzyadevych, J.-M.Chovelon, N.Jaffrezic-Renault, C.Ling, X.Siqing. Conductometric nitrate biosensor based on Methyl viologen/Nafion®/Nitrate reductase interdigitated electrodes. Talanta.- 2006, 69.- P.450-455.
  • M.Marrakchi, S.V.Dzyadevych, O.A.Biloivan, C.Martelet, P.Temple, N.Jaffrezic-Renault. Development of trypsin biosensor based on ion-sensitive field-effect transistors for proteins determination. Material Science and Engineering C.- 2006.- 26.- P.369-373.
  • Tuan Mai Anh, S.V.Dzyadevych, N.Prieur, Chien Nguen Duc, T.D.Pham, N.Jaffrezic-Renault, J.-M.Chovelon. Detection of toxic compounds in real water samples using a conductometric tyrosinase biosensor. Material Science and Engineering C.- 2006.- 26.- P.453-456.
  • I.V.Benilova, V.M.Arkhypova, S.V.Dzyadevych, N.Jaffrezic-Renault, C.Martelet, A.P.Soldatkin. Kinetics of human and horse sera cholinesterases inhibition with solanaceous glycoalkaloids: study by potentiometric biosensor. Pesticide Biochemistry and Physiology.- 2006, 86, No 3.- P. 203-210.
  • A.P.Soldatkin, S.V.Dzyadevych, A.V.El’skaya, C.Martelet, N.Jaffrezic-Renault. Pathways for improving potentiometric and conductometric enzymatic biosensors. In: Encyclopedia of Sensors (Eds. C.A.Grimes, E.C.Dickey, M.V.Pishko).- California, USA: American Scientific Publishers.- 2006.- V.7.- P. 331-348.
  • K.Rose, R.Fernandez-Lafuente, J.Manuel Guisan, L.Betancor, N.Jaffrezic, S.Dzyadevych. Biosensor and its use. US Patent 2007/0161069 A1.- Filed: 14.11.2006.- Publ: 12.07.2007.

until 2006:

  • A.P.Soldatkin, A.V.El'skaya, A.A.Shul'ga, A.S.Jdanova, S.V.Dzyadevich, N.Jaffrezic-Renault, C.Martelet, P.Clechet. Glucose sensitive conductometric biosensor with additional NAFION membrane: reduction of influence of buffer capacity on the sensor response and extension of its dynamic range. Analytica Chimica Acta, 1994, 288, P. 197-203.
  • A.A.Shul'ga, S.V.Dzyadevich, A.P.Soldatkin, S.V.Patskovsky, V.I.Strikha & A.V.El'skaya. Thin-film Conductometric Biosensor for Glucose and Urea Determination. Biosensors & Bioelectronics, 1994, 9, P. 217-223.
  • A.M.Nyamsi Hendji, N.Jafffrezic-Renault, C.Martelet, S.V.Dzyadevich, A.A.Shul’ga, A.P.Soldatkin, A.V.El’skaya. Enzyme biosensor based on micromachined interdigitated conductometric transducer: application to the detection of urea, glucose, acetyl and butyrylcholine chlorides. Sensors and Actuators B, 1994, 21, P. 123-129.
  • S.V.Dzyadevich, A.A.Shul'ga, A.P.Soldatkin, A.M.Nyamsi Hendji, N.Jaffrezic-Renault, C.Martelet. Application of conductometric for sensitive detection of pesticides biosensor based on the cholinesterases. Electroanalysis, 1994, 6, P.752-758.
  • G.A.Zhylyak, S.V.Dzyadevich, Y.I.Korpan, A.P.Soldatkin, A.V.El’skaya. Application of urease conductometric biosensor for heavy-metal ion determination. Sensors and Actuators B, 1995, 24-25, P.145-148.
  • S.V.Dzyadevich, V.N.Arkhipova, A.P.Soldatkin, A.V.El'skaya, A.A.Shul'ga. Glucose conductometric biosensor with potassium hexacyanoferrate (III) as an oxidizing agent. Analytica Chimica Acta, 1998, 374, P. 11-18.
  • S.V.Dzyadevich, Y.I.Korpan, V.N.Arkhipova, M.Y.Alesina, C.Martelet, A.V.El'skaya, A.P.Soldatkin. Application of enzyme field-effect transistors for determination of glucose concentrations in blood serum. Biosensors & Bioelectronics, 1999, 14, P. 283-287.
  • V.N.Arkhypova, S.V.Dzyadevych, A.P.Soldatkin, A.V.El’skaya, N.Jaffrezic-Renault, H.Jaffrezic, C.Martelet. Multibiosensor based on enzyme inhibition analysis for determination of different toxic substances. Talanta, 2001, 55, P. 919-927.
  • S.V.Dzyadevych, V.N.Arkhypova, Y.I.Korpan, A.V.El’skaya, A.P.Soldatkin, N.Jaffrezic-Renault, C.Martelet. Conductometric formaldehyde sensitive biosensor with specifically adapted analytical characteristics. Analytica Chimica Acta, 2001, 445, P. 47-55.