SurnameDZYADEVYCH
First NameSergiy
Date and place of birth:26 december 1967, Crimea, Ukraine
Національність:українець
Marital status:Married
Business AddressInstitute of Molecular Biology and Genetics of National Academy of Sciences of Ukraine (IMBG NASU),
150 Zabolotnogo str., Kyiv, 03143, Ukraine
Phone. +380442000328, E-mail dzyad@yahoo.com

EDUCATION

20062006 Doctor of Sciences, 03.00.20 "Biotechnology", Institute of Molecular Biology and Genetics of the National Academy of Sciences of Ukraine, Kyiv, Ukraine. Title of the dissertation: System analysis of interrelation between bioselective elements and miniature electrochemical transducers in biosensorics
1995PhD, 03.00.20 "biotechnology", O.V. Palladin Institute of Biochemistry of the National Academy of Sciences of Ukraine, Kyiv, Ukraine. Title of the dissertation: Development of enzyme and cell conductometric biosensors for determining the concentrations of some substrates and inhibitors
1992specialty: radiophysics and electronics (solid-state electronics), Faculty of Radiophysics, Department of Semiconductor Physics, Taras Shevchenko University of Kyiv, Ukraine

SCIENTIFIC DEGREES

2024Academician of the National Academy of Sciences of Ukraine, specialty: biochemistry, molecular biology
2021Corresponding Member of the National Academy of Sciences of Ukraine, specialty: analytical enzymology
2011Professor, specialty: biotechnology
2006Doctor of Biological Sciences, specialty: 03.00.20 biotechnology
2000Senior Researcher, specialty: 03.00.20 biotechnology
1995PhD in Biological Sciences, specialty: 03.00.20 biotechnology

EMPLOYMENT HISTORY

UKRAINE

2019 – nowDeputy Director for Research, Institute of Molecular Biology and Genetics, NAS of Ukraine, Kyiv, Ukraine
2012 – nowProfessor of the Department of Molecular Biotechnology and Bioinformatics, Scientific and Educational Institute of High Technologies, Taras Shevchenko National University of Kyiv, Ukraine (part-time)
2011 – 2019Chief Researcher, Institute of Molecular Biology and Genetics, NAS of Ukraine, Kyiv, Ukraine
2004 – 2011Leader Researcher, Institute of Molecular Biology and Genetics, NAS of Ukraine, Kyiv, Ukraine
1998 – 2004Senior Researcher, Institute of Molecular Biology and Genetics, NAS of Ukraine, Kyiv, Ukraine
1996 – 1997Researcher, Institute of Molecular Biology and Genetics, NAS of Ukraine, Kyiv, Ukraine
1992 – 1995Postgraduate student, Department of Semiconductor Physics, Taras Shevchenko University of Kyiv, Ukraine

ABROAD

January 2013 – June 2013Scientific work, Middle East Technical University (METU), Ankara, Turkey
March 2011 – April 2011Scientific work, Middle East Technical University (METU), Ankara, Turkey
February 2010 – April 2010Scientific work, Middle East Technical University (METU), Ankara, Turkey
January 2005 – June 2005Scientific work, École Centrale de Lyon, Lyon, France
January 2004 – July 2004Scientific work, École Centrale de Lyon, Lyon, France
January 2003 – June 2003Scientific work, École Centrale de Lyon, Lyon, France
January 2002 – March 2002Scientific work, École Centrale de Lyon, Lyon, France
November 2001 – December 2001Scientific work, École Centrale de Lyon, Lyon, France
September 2000 – Mai 2001Scientific work, Claude Bernard University Lyon 1, France
September 1999 – December 1999Scientific work, Institute of Chemo- and Biosensor, Münster, Germany
January 1999 – April 1999Scientific work, Claude Bernard University Lyon 1, France
March 1997 – April 1997Scientific work, University of Leeds, Leeds, United Kingdom
June 1996 – September 1996Scientific work, Institute of Chemo- and Biosensor, Münster, Germany

Leadership of International projects:

Project Leader from IMBGUkrainian-Swiss Joint Project No 225067 “Novel Portable Non-Invasive Real-Time
Monitoring System for Biomarker Detection in Preterm Infants” (2024-2027)
Project LeaderHorizon 2020 project 951887-BIONANOSENS-H2020-WIDESPREAD-2020-5 “Deeping collaboration on novel biomolecular electronics based on “smart” nanomaterials” (2020-2024)
Project LeaderSimons Grant No 1290589 to support scientists at the Institute of Molecular Biology and Genetics of the National Academy of Sciences of Ukraine (2024-2025)
Project LeaderSimons Grant No 1036633 to support scientists at the Institute of Molecular Biology and Genetics of the National Academy of Sciences of Ukraine (2023)
Project LeaderSTCU-NASU project 6177 “Application of functional nanomaterials for creation of biosensor conductometric devices for arginine detection” (2016-2018)
Project LeaderSTCU-NASU project 5044 “Elaboration of “smart nanocarriers” based on the effect of photothermal plasmon amplification for drug target delivery in the human body” (2015-2017)
Project Leader from IMBGEuropean FP7 project PIRSES-2012-318524 NANODEV” Integrated nanodevices” (2013-2015)
Project Leader from IMBGNATO Grant CBP.NUKR.CLG984221 “Development of biosensors for botulinum neurotoxin determination with applicability to screening foods against biological terrorist attacks” (2011-2013)
Project Leader from IMBGEuropean FP7 project PIRSES-GA-2008-230802 NANOBIOSENS “NAanosensors based on nanomaterials” (2009-2011)
Project Leader from IMBGNATO Linkage Grant No 979775 “Development of novel conductometric biosensors based on immobilised Chlorella vulgaris microalgae (2003-2005)

RESEARCH EXPERIENCE

  • Analytical biotechnology, sensor technology, analytical chemistry
  • Environmental and food monitoring
  • Impedance spectroscopy
  • Development and creation of biosensors
  • Modern medical diagnostics

SCIENTIFIC PUBLICATIONS

  • 350 articles
  • 10 book chapters
  • 50 patents

Scopus profile: https://www.scopus.com/authid/detail.uri?authorId=57212448897

ORCID: https://orcid.org/0000-0003-2915-716X

Hirsh index – 40

HONOURS, AWARDS, FELLOWSHIPS, MEMBERSHIP IN PROFESSIONAL SOCIETIES

2023Award of the National Academy of Sciences of Ukraine "For teaching of new scientific generation"
2023Diploma of the Verkhovna Rada of Ukraine
2019O. V. Palladin Prize of the National Academy of Sciences of Ukraine
2017Title "Inventor of the Year of the NAS of Ukraine"
2013Gratitude to the Presidium of the NAS of Ukraine
2011State Prize of Ukraine in the field of science and technology 2011 (Decree of the President of Ukraine No. 329/2012)
2006Prize of the Ukrainian Federation of Scientists for Young Scientists "Intellectual Future of Ukraine" "
З 2005Member of the Ukrainian Biochemical Society
2000“Post Rouge” from CNRS
1999INTAS Fellowship grant for Young Scientists No YSF98-107
1999-2000Personal Scholarship of the President of Ukraine
1998International Science Foundation Award
1996Fellowship of Deutscher Akademischer Austauschdienst

SELECTED PUBLICATIONS

  1. 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.
  2. 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.
  3. 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.
  4. 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.
  5. 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.
  6. N.Jaffrezic-Renault, C.Martelet, P.Clehet, A.M.Nyamsi Hendji, A.A.Shul’ga, S.V.Dzyadevich, L.I.Nechiporuk, A.P.Soldatkin. Comparison of two transduction modes for design of microbiosensors. Application to the detection of organophosphorous pesticides. Sensors and Materials, 1996, 8, No 3, P. 161-167.
  7. 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.
  8. 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.
  9. Y.I.Korpan, S.V.Dzyadevich, V.N.Arkhipova, M.V.Gonchar, T.D.Gibson, N.Jaffrezic-Renault, C.Martelet, A.P.Soldatkin. Enzyme-based electrochemical sensors for formaldehyde detection. Sensors and Materials, 2000, 12, No 2, P. 79-86.
  10. 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.
  11. 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.
  12. U.Trebbe, M.Niggemann, K. Cammann, G.C.Fiaccabrino, M.Koudelka-Hep, S.Dzyadevich, O.Shulga. A new calcium sensor based on ion-selective conductometric microsensors - membranes and features. Fresenius. Journal of Analytical Chemistry, 2001, 371, P. 734-739.
  13. T.Mai Anh, S.V.Dzyadevych, A.P.Soldatkin, N.Duc Chien, N.Jaffrezic-Renault, J.-M. Chovelon. Development of tyrosinase biosensor based on pH-sensitive field-rffect transistor for phenols determination in water solution. Talanta, 2002, 56, P. 627-634.
  14. S.V.Dzyadevych, T.Mai Anh, A.P.Soldatkin, N.Duc Chien, N.Jaffrezic-Renault, J.-M. Chovelon. Development of enzyme biosensor based on pH-sensitive field-effect transistors for detection of phenolic compounds. // Bioelectrochemistry, 2002, 55, No 1-2, P.79-81.
  15. S.V.Dzyadevych, A.P.Soldatkin, J.-M. Chovelon. Assessment of the toxicity of parathion and its photodegradation products in water samples using conductometric enzyme biosensors. Analytica Chimica Acta, 2002, 459, P. 33-41.
  16. S.V.Dzyadevych, J.-M. Chovelon. A comparative photodegradation studies of methyl parathion by using Lumistox test and conductometric biosensor technique. Materials Science and Engineering C, 2002, 21, P. 55-60.
  17. V.N.Arkhypova, S.V.Dzyadevych, A.P.Soldatkin, A.V.El’skaya, C.Martelet, N.Jaffrezic-Renault. Development and optimisation of biosensors based on pH-sensitive field effect transistor and cholinesterase for sensitive detection of solanaceous glycoalkaloids. Biosensors & Bioelectronics.- 2003.- 18.- P. 1047-1053.
  18. S.V.Dzyadevych, A.P.Soldatkin, Y.I.Korpan, V.N.Arkhypova, A.V.El’skaya, J.-M.Chovelon, C.Martelet, N.Jaffrezic-Renault. Biosensors based on enzyme field effect transistors for determination of some substrates and inhibitors. Analytical and Bioanalytical Chemistry.- 2003.- 377.- P. 496-506.
  19. S.V.Dzyadevych, V.N.Arkhypova, A.P.Soldatkin, A.V.El’skaya, C.Martelet, N.Jaffrezic-Renault. Enzyme biosensor for tomatine detection in tomatoes. Analytical Letters.- 2004. – 37, No 8.- P. 1611-1624.
  20. C.Chouteau, S.V.Dzyadevych, J.-M.Chovelon, C.Durrieu. Development of novel conductometric biosensors based on immobilised whole cell Chlorella vulgaris microalgae. Biosensors & Bioelectronics.- .- 2004.- 19.-P. 1089-1096.
  21. T.Mai Anh, S.V.Dzyadevych, M.Chau Van, N.Jaffrezic-Renault, N.Duc Chien, J.-M.Chovelon. Conductometric tyrosinase biosensor for the detection of diuron, atrazine and its main metabolites. Talanta.- 2004.- 63.- P. 365-370.
  22. V.N.Arkhypova, S.V.Dzyadevych, A.P.Soldatkin, Y.I.Korpan, A.V.El’skaya, J.-M.Gravoueille, C.Martelet, N.Jaffrezic-Renault. Application of enzyme field effect transistors for fast detection of total glycoalkaloids content in potatoes. Sensors and Actuators B.- 2004.- 103.- P. 416-422.
  23. S.V.Dzyadevych, V.N.Arkhypova, C.Martelet, N.Jaffrezic-Renault, J.-M.Chovelon, A.V.El’skaya, A.P.Soldatkin. Potentiometric biosensors based on ISFETs and immobilized cholinesterases. Electroanalysis, 2004, 16, P. 1873-1882.
  24. O.A.Biloivan, S.V.Dzyadevych, O.A.Boubryak, A.P.Soldatkin, A.V.El’skaya. Development of enzyme biosensor based on ISFETs for quantitative analysis of serine proteinases. Electroanalysis, 2004, 16, P. 1883-1889.
  25. A.P.Soldatkin, V.N.Arkhypova, S.V.Dzyadevych, A.V.El’skaya, J.-M.Gravoueille, N.Jaffrezic-Renault, C.Martelet. Analysis of the potato glycoalkaloids by using of enzyme biosensor based on pH-ISFETs. Talanta.- 2005, 66, P. 28-33..
  26. S.V.Dzyadevych, A.P.Soldatkin, V.N.Arkhypova, A.V.El’skaya, J.-M. Chovelon, C.Georgiou, C.Martelet, N.Jaffrezic-Renault. Early-warning electrochemical biosensor system for the environmental monitoring based on enzyme inhibition effect. Sensors and Actuators B, 2005, 105, P. 81-87.
  27. O.N.Schuvailo, S.V.Dzyadevych, A.V.El’skaya, S.Gautier-Sauvigné, E.Csoregi, R.Cespuglio, A.P.Soldatkin. Carbon-fibre-based microbiosensors for in vivo measurements of acetylcholine and choline. Biosensors & Bioelectronics.- 2005.- 21, P. 87-94.
  28. C.Chouteau, S.V.Dzyadevych, C.Durrieu, J.-M.Chovelon. A bi-enzymatic whole cell conductometric biosensor for heavy metal ions and pesticides detection in water samples. Biosensors & Bioelectronics.- 2005.- 21, P. 273-281.
  29. M.Marrakchi, S.V.Dzyadevych, P. Namour, C.Martelet, N.Jaffrezic-Renault. A novel proteinase K biosensor based on interdigitated conductometric electrodes for proteins determination in rivers and sewers water. Sensors and Actuators B.- 2005.- 111-112.- P. 390-395.
  30. 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.
  31. 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.
  32. 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.
  33. 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.- 26.- P.411-414.
  34. 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.
  35. O.A.Biloivan, S.V.Verevka, S.V.Dzyadevych, 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. Material Science and Engineering C.- 2006.- 26.- P.574-577.
  36. 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, 568.- P.248-258.
  37. 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.
  38. 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.
  39. S.V.Dzyadevych, A.P.Soldatkin. Scientific and technological bases of creation of miniature electrochemical biosensors. Kyiv:Naukova Dumka.- 2006.- 261 p.
  40. S.V.Dzyadevych, A.P.Soldatkin, V.N.Arkhypova, C.Martelet, N.Jaffrezic-Renault, A.V.El’skaya. Electrochemical enzyme biosensors. Kiev: IMBG, 2006, 72 p.
  41. O.A. Biloivan, S.V. Dzyadevych, A.V.Elskaya, N. Jaffrezic-Renault, N. Zine, J. Bausells, J. Samitier, A. Errachid. Development of bi-enzyme microbiosensor based on solid-contact ion-selective microelectrodes for protein detection. Sensors and Actuators B.- 2007.- 123.- P.1096-1100.
  42. M.Marrakchi, S.V.Dzyadevych, Ph Namour, C.Martelet, N.Jaffrezic-Renault. An enzyme biosensor based on gold interdigitated thin film electrodes for water quality control. Analytical Letters.- 2007.- 40.- P.1307-1316.
  43. 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.
  44. S.V.Dzyadevych, V.N.Arkhypova, A.P.Soldatkin, A.V.El’skaya, C.Martelet, N.Jaffrezic-Renault. Conductometric enzyme biosensors. In: 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.
  45. M.Marrakchi, S.V.Dzyadevych, F.Lagarde, C.Martelet, N.Jaffrezic-Renault. Conductometric biosensor based on glucose oxidase and beta-galactosidase for specific lactose determination in milk. Material Science and Engineering C, 2008, 28, P. 872-875.
  46. 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.
  47. 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, 28, P. 959-964.
  48. S.V.Dzyadevych, A.P.Soldatkin. Solid-State electrochemical enzyme biosensors. Kyiv: IMBG, 2008, 222 p.
  49. K.Rose, S.Dzyadevych, R.Fernandez-Lafuente, N.Jaffrezic, G.Kuncova, V.Matejec, P.J.Scully. Hybrid coatings as transducers in optical biosensors. Journal of Coating Technology and Research, 2008, 5 (4), P.491-496.
  50. 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, 2008, 29, P. 171-180.
  51. A.L.Berezhetskyy, O.F.Sosovska, C.Durrieu, J.-M.Chovelon, S.V.Dzyadevych, C.Tran-Minh. Alkaline Phosphatase Conductometric Biosensor For Heavy-metal Ion Determination. ITBM-RBM, 2008, 29, P. 136-140.
  52. S.V.Dzyadevych, N.Jaffrezic-Renault. Conductometric Microbiosensors for Environmental Monitoring. Sensors, 2008, 8, P. 2569-2588.
  53. 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 (3), P. 314-318.
  54. 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 Chemistry, 2009, 57, P 6528-6535.
  55. T.B.Goriushkina, A.P.Soldatkin, S.V.Dzyadevych. Application of Amperometric Enzyme Biosensors for Wine and Must Analysis, Procedia Chemistry, 2009, 1, P.277-280.
  56. M.Marrakchi, N.Jaffrezic-Renault, S.V.Dzyadevych, F.Lagarde. Pollutant detection and environmental monitoring using conductometric microbiosensors. In: Industrial Waste: Environmental Impact, Disposal and Treatment (Ed. John P. Samuelson), New York: Nova Science Publishers, 2009, P. 205-222.
  57. 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 Actuators B, 2010, 144, P. 361-367.
  58. 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.
  59. 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, 31, P.1490-1497.
  60. 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, 85, P. 1435-1441.
  61. 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.
  62. A.S. Pavluchenko, A.L. Kukla, Yu.V. Goltvianskyi, O.O. Soldatkin, V.M. Arkhypova, S.V. Dzyadevych, A.P. Soldatkin. Investigation of stability of the pH-sensitive field-effect transistor characteristics. Sensor Letters, 2011, 9, P. 2392-2396.
  63. 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, 9, P. 2320-2326.
  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, 30, P.25-30.
  65. 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, 92, P.58-64.
  66. I.S.Kucherenko, О.О.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 // Material Science and Engineering C, 2012, 32, P.1648-1653.
  67. I.S.Kucherenko, O.O.Soldatkin, B.Ozansoy Kasap, S.Öztürk, B.Akata, S.V.Dzyadevych. Elaboration of urease adsorption on silicalite for biosensor creation. Electroanalysis, 2012, 24, P.1380-1385.
  68. M.Hnaien, S.Dzyadevych, F.Lagarde, N. Jaffrezic-Renault. A conductometric sensor specific for cationic surfactants. Electroanalysis, 2012, 24, P.1441-1445.
  69. 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.
  70. O.Y.Saiapina, S.V.Dzyadevych, A.Walcarius, N Jaffrezic-Renault. A high sensitivity zeolite-based conductometric microsensor for ammonium determination. Analytical Letter, 2012, 45, P.1467-1484.
  71. E.Soy, V.Arkhypova, O.Soldatkin, M.Shelyakina, S.Dzyadevych, J.Warzywoda, ASacco 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. Material Science and Engineering C, 2012, 32, P. 1835-1842.
  72. 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 to improve characteristics of pH-FETs biosensor based on immobilized urease. Electroanalys, 2013, 25, P. 468-474.
  73. O.O.Soldatkin, V.M.Peshkova, O.Y.Saiapina, I.S.Kucherenko, O.Y.Dudchenko, V.G.Melnyk, O.D.Vasylenko, L.M.Semenycheva, A.P.Soldatkin, S.V.Dzyadevych. Development of conductometric biosensor array for simultaneous determination of maltose, lactose, sucrose and glucose. Talanta, 2013, 115, P. 200-207.
  74. E.Soy, S.Galioglu, O.Soldatkin, S.Dzyadevych, J.Warzywoda, A.Sacco Jr., B.Akata. Direct evidence of advantage of using nano size zeolite Beta for ISFET based biosensor construction. Journal of Nanoparticle Research, 2013, 15:1645, 12 pp., DOI 10.1007/s11051-013-1645-y.
  75. O.O.Soldatkin, O.S.Burdak, T.A.Sergeyeva, V.M.Arkhypova, S.V.Dzyadevych, A.P.Soldatkin. Acetylcholinesterase-based conductometric biosensor for determination of aflatoxin B1. Sensors and Actuators B, 2013, 188, P. 999-1003.
  76. M.Sheliakina, V.Arkhypova, O.Soldatkin, B.Akata, S.Dzyadevych. Urease-based biosensor for arginine determination. Talanta.- 2014, 121, P.18-23.
  77. S.Dzyadevych, N.Jaffrezic-Renault. Conductometric biosensors. In: Paul Schaudies (ed), Biological Identification:DNA amplification and sequencing, optical sensing, lab-on-chip and portable systems, 2014, Cambridge: Woodhead Publishing Limited, P. 153-193.
  78. M.K.Shelyakina, O.O.Soldatkin, V.M.Arkhypova, B.O.Kasap, B.Akata, S.V.Dzyadevych. Study of zeolite influence on analytical characteristics of urea biosensor based on ion-selective field-effect transistors. Nanoscale Research Letter, 2014, 9:124, P.1-9. DOI: 10.1186/1556-276X-9-124.
  79. O.O.Soldatkin, I.S.Kucherenko, S.V.Marchenko, B.Ozansoy Kasap, B.Akata Kurç, A.P.Soldatkin, S.V.Dzyadevych. Application of enzyme/zeolite sensor for urea analysis in serum. Material Science and Engineering C, 2014, 14, P.155-160.
  80. K.V.Stepurska, О.О.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, 854, P.161-168.
  81. S.Dzyadevych, N.Jaffrezic-Renault. Conductometric enzyme biosensors. In: S.Cosnier (ed), Electrochemical Biosensors. Singapore: Pan Stanford Publishing, 2015, P.247-288.
  82. O.O.Soldatkin, M.K.Shelyakina, V.N.Arkhypova, E.Soy, S.K.Kirdeciler, B.Ozansoy Kasap, F.Lagarde, N.Jaffrezic-Renault, B.Akata Kurç, A.P.Soldatkin, S.V. Dzyadevych. Nano- and microsized zeolites as a perspective material for potentiometric biosensors creation. Nanoscale Research Letter, 2015, 10:59. DOI 10.1186/s11671-015-0768-8.
  83. 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.
  84. N.Zehani, R.Kherrat, S.V.Dzyadevych, N.Jaffrezic-Renault. A microconductometric biosensor based on lipase extracted from Candida rugosa for direct and rapid detection of organophosphate pesticides. International Journal of Environmental Analytical Chemistry, 2015, P.1-14. DOI 10.1080/03067319.2015.1036864.
  85. I.S.Kucherenko, O.O.Soldatkin, B.Ozansoy Kasap, S.K.Kirdeciler, B.Akata Kurç, N.Jaffrezic-Renault, A.P.Soldatkin, F.Lagarde, S.V.Dzyadevych. Nanosized zeolites as a perspective material for conductometric biosensors creation. Nanoscale Research Letter, 2015, 10:209.- DOI 10.1186/s11671-015-0911-6
  86. I.S.Kucherenko, O.O.Soldatkin, F.Lagarde, N.Jaffrezic-Renault, S.V.Dzyadevych, A.P.Soldatkin. Determination of total creatine kinase activity in blood serum using an amperometric biosensor based on glucose oxidase and hexokinase. Talanta, 2015, 144, P.604–611.
  87. F.Dridi, M.Marakchi, M.Gargouri, A.Garcia-Cruz, S.Dzyadevych, F.Vocanson, J.Saulnier, N.Jaffrezic-Renault, F.Lagarde. Thermolysin entrapped in a gold nanoparticles/polymer composite for direct and sensitive conductometric biosensing of ochratoxin A in olive oil. Sensors and Actuators B, 2015, 221, P. 480-490.
  88. N. Zehani, P. Fortgang, M. Saddek Lachgar, A. Baraket, M. Arab, S.V.Dzyadevych, R. Kherrat, N. Jaffrezic-Renault. 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, 74, P.830-836.
  89. K.V.Stepurska, О.О.Soldatkin, V.M.Arkhypova , A.P.Soldatkin, F.Lagarde, N.Jaffrezic-Renault, S.V.Dzyadevych. Development of novel enzyme potentiometric biosensor based on pH-sensitive field-effect transistors for aflatoxin B1 analysis in real samples. Talanta, 2015, 144,P.1079–1084.
  90. M.Matsishin, A.Rachkov, A.Errachid, S.Dzyadevych, A.Soldatkin. Development of impedimetric DNA biosensor for selective detection and discrimination of oligonucleotide sequences of the rpoB gene of Mycobacterium tuberculosis. Sensors and Actuators B, 2016, 222, P. 1152-1158.
  91. L.V.Shkotova, N.Y.Piechniakova, O.L.Kukla, S.V.Dzyadevych. Thin-film amperometric multibiosensor for simultaneous determination of lactate and glucose in wine. Food Chemistry, 2016, 197, P.972-978.
  92. I.S.Kucherenko, D.Yu.Kucherenko, O.O.Soldatkin, F.Lagard, S.V.Dzyadevych, A.P.Soldatkin. A novel conductometric biosensor based on hexokinase for determination of adenosine triphosphate. Talanta, 2016, 150, P.469–475.
  93. O.Ye.Dudchenko, V.M.Pyeshkova, O.O.Soldatkin, B.Ozansoy-Kasap, B.Akata, S.V.Dzyadevych, A.P.Soldatkin. Development of silicalite/glucose oxidase-based biosensor and its application for glucose determination in juices and nectars. Nanoscale Research Letter, 2016, 11:59.- DOI 10.1186/s11671-016-1275-2
  94. O.O.Soldatkin, K.V.Stepurska, V.M.Arkhypova, A.P.Soldatkin, A.V.El’skaya, F.Lagarde, S.V.Dzyadevych. Conductometric enzyme biosensor for patulin determination. Sensors and Actuators B, 2017, 239, P.1010-1015.
  95. B.O.Kasap, S.V.Marchenko, O.O.Soldatkin, S.V.Dzyadevych, B. Akata Kurc. Biosensors Based on Nano-Gold/Zeolite Modified Ion Selective Field Effect Transistors for Creatinine Detection. Nanoscale Research Letter, 2017, 12:162. DOI: 10.1186/s11671-017-1943-x.
  96. О.V.Soldatkina, О.О.Soldatkin, B.O.Kasap, D.Yu.Kucherenko, I.S. Kucherenko, B.Akata, S.V.Dzyadevych. A Novel Amperometric Glutamate Biosensor Based on Glutamate Oxidase Adsorbed on Silicalite. Nanoscale Research Letteri>.- 2017.- 12:260. DOI: 10.1186/s11671-017-2026-8.
  97. 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 Letter.- 2017.- 12:594. DOI 10.1186/s11671-017-2353-9.
  98. K.Stepurska, S.Dzyadevych, S.Gridin. Potentiometric enzyme biosensor for aflatoxin B1 detection - Kinetic simulation. Sensors and Actuators B, 2018, 259, P. 580-486.
  99. D.Yu.Kucherenko, I.S.Kucherenko, O.O.Soldatkin, Ya.V.Topolnikova, S.V.Dzyadevych, A.P.Soldatkin. Highly selective amperometric biosensor array for the simultaneous determination of glutamate, glucose, choline, acetylcholine, lactate and pyruvate.- Bioelectrochemistry.- 2019.- 128.- P100-108.
  100. I.S.Kucherenko, O.O.Soldatkin, Ya.V.Topolnikova, S.V.Dzyadevych, A.P.Soldatkin. Novel multiplexed biosensor system for the determination of lactate and pyruvate in blood serum. Electroanalysis.- 2019.- 31(8).-P.1625-1631.
  101. I.S.Kucherenko, O.O.Soldatkin, S.V.Dzyadevych, A.P.Soldatkin. Electrochemical biosensors based on multienzyme systems: main groups, advantages and limitations – a review. Analytica Chimica Acta.-2020.- 1111.- P. 114-131. https://doi.org/10.1016/j.aca.2020.03.03
  102. O.Saiapina, Y.Vronska, S.Dzyadevych, N.Jaffrezic-Renault. Clinoptilolite-based conductometric sensors for detection of ammonium in complex medium. Electroanalysis.-2020.- 32(9).- P.1993-2001
  103. 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.
  104. 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.
  105. V.Arkhypova, O. Soldatkin, L.Moghylevska, I.Konvalyuk, V.Kunakh, S.Dzyadevych. Enzyme biosensor based on pH-sensitive field-effect transistors for assessment of total indole alkaloids content in tissue culture of Rauwolfia serpentine. Electrochemical Science Advance.- 2021.- 2100152.- P.1-8. https://doi.org/10.1002/elsa.202100152.
  106. V.G.Melnik, A.D.Vasylenko, L.N.Semenycheva, A.V.Slitskiy, O.Y.Saiapina, S.V.Dzyadevych. Solutions for enhancement of sensitivity and metrological reliability of conductometric biosensor systems. Engineering Research Express.- 2021.- 3. 045008.- P.1-16. https://doi.org/10.1088/2631-8695/ac2a0d.
  107. 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.- 2022.- 12(4).- P. 995-1003. https://doi.org/10.1007/s13204-021-01807-6.
  108. V.M.Pyeshkova, O.Y.Dudchenko, O.O.Soldatkin, S.A.Alekseev, T.Seker, B.Akata Kurc, S.V.Dzyadevych. Development of three-enzyme lactose amperometric biosensor modified by nanosized poly (meta-phenylenediamine) film. Applied Nanoscience.- 2022.- 12(4).- P. 1267-1274. https://doi.org/10.1007/s13204-021-01859-8.
  109. V. Martsenyuk, A. Klos-Witkowska, S. Dzyadevych, A. Sverstiuk. Nonlinear analytics for electrochemical biosensor design using enzyme aggregates and delayed mass action. Sensors.- 2022.- 22(3).- 980.- P.1-17. https://doi.org/10.3390/s22030980.
  110. K.Berketa, O.Saiapina, L.Fayura, A.Sibirny, S.Dzyadevych, O.Soldatkin. Novel highly sensitive conductometric biosensor based on arginine deiminase from Mycoplasma hominis for determination of arginine. Sensors & Actuators B.- 2022.- 367.- 132023. https://doi.org/10.1016/j.snb.2022.132023
  111. I.S.Kucherenko, O.O.Soldatkin, S.V.Dzyadevych, A.P.Soldatkin. Application of zeolites and zeolitic imidazolate frameworks in the biosensor development. Biomaterials Advances.- 2022.- https://doi.org/10.1016/j.bioadv.2022.213180
  112. L.Shkotova, O.Zinchenko, V.Arkhypova, S.Dzyadevych. Potentiometric enzyme biosensor modified with gold nanoparticles. Applied Nanoscience.- 2023.- 13 (7).- P. 5133-5138. https://doi.org/10.1007/s13204-022-02715-z
  113. Y.O.Nesterenko, O.E.Rachkov, K.O.Kozoriz, S.V.Dzyadevych, L.V.Borkovska. The effect of electrolytic aggregation of Au nanoparticles on optical characteristics of AgInS2/ZnS QDs modified with oligonucleotides. Applied Nanoscience.-2023.- 13.- P. 6819–6827. https://doi.org/10.1007/s13204-023-02779-5 z
  114. I.S.Kucherenko, C.Farre, G.Raimondi, C.Chaix, N.Jafrezic‑Renault, J.‑F.Chateaux, M.Sobolevskyi, O.O.Soldatkin, S.V.Dzyadevych, A.P.Soldatkin, F.Lagarde. A novel adenosine triphosphate (ATP) biosensor based on electrospun polymer nanofibers with entrapped hexokinase and glucose oxidase. Applied Nanoscience.- 2023.- https://doi.org/10.1007/s13204-023-02861-y.
  115. D.Mruga, S.Dzyadevych, O.Soldatkin. High-selective alanine transaminase sensitive biosensor based on nanosize semipermeable poly-meta-phenylenediamine membrane. Applied Nanoscience.- 2023.- https://doi.org/10.1007/s13204-023-02810-9.
  116. M.S.Sobolevskyi, O.O.Soldatkin, A.М.Lopatynskyi, V.І.Chegel, A.V.Samoylov, M.J.Matsishin, S.V.Dzyadevych, A.P.Soldatkin. Application of modified gold nanoparticles to improve characteristics of DNA hybridization biosensor based on surface plasmon resonance spectrometry. Applied Nanoscience.- 2023.- https://doi.org/10.1007/s13204-023-02930-2.
  117. L.Shkotova, O.Soldatkin, V.Arkhypova, V.Pyeshkova, O.Saiapina, T.Sergeyeva, A.Soldatkin, S.Dzyadevych. Biosensors. Practical application. In: O.Stabnikova, O.Shevchenko, V.Stabnikov, O.Paredes-López (eds.), Bioconversion of Food Industry Wastes: Transformation into Value-Added Products, CRC Press, Boca Raton, USA, - 2023.- P. 305-352. https://doi.org/10.1201/9781003329671.
  118. D.Mruga, K.Berketa, S.Dzyadevych, O.Soldatkin. Development of a new method of improving the oxidase-based biosensors' analytical characteristics by adding catalase as an auxiliary enzyme. Electroanalysis.- 2023.- 35, e202300190. https://doi.org/10.1002/elan.202300190.
  119. V.Arkhypova, O.Soldatkin, A.Soldatkin, S.Dzyadevych. Electrochemical biosensors based on enzyme inhibition effect. Chemical Records.- 2024.- 24.- e202300214. https://doi.org/10.1002/tcr.202300214.
  120. E.Calzia, D.Ayed, S.Ben Aissa, S.Chatti, K.Berketa, S.Dzyadevych, N.Jaffrezic-Renault. A new microconductometric sensor based on a PVC membrane including an o-COSAN ion-pair complex for the detection of caffeine. Electroanalysis.- 2024.- 36, e202300381. https://doi.org/10.1002/ elan.202300381.
  121. O.O.Soldatkin, V.M.Pyeshkova, I.S.Kucherenko, T.P.Velychko, V.A.Bakhmat, V.M.Arkhypova, A.P.Soldatkin, S.V.Dzyadevych. Application of butyrylcholinesterase-based biosensor for simultaneous determination of different toxicants using inhibition and reactivation steps. Electroanalysis.- 2024, 36, e202300400. https://doi.org/10.1002/elan.202300400.
  122. O.Y.Sayapina, K.Berketa, A.S.Sverstiuk, L.Fayura, A.A.Sibirny, S.Dzyadevych, O.O.Soldatkin. Adaptation of conductometric monoenzyme biosensor for rapid quantitative analysis of L-arginine in dietary supplements. Sensors.- 2024.- 24.- 4672.- 19 p. https://doi.org/10.3390/s24144672
  123. D.Mruga, S.Dzyadevych, O.Soldatkin. Development and optimisation of the biosensor for aspartate aminotransferase blood level determination. Anal. Bioanal.l Chem.- 2024.- 11p. https://doi.org/10.1007/s00216-024-05682-2