SURNAMESOLDATKIN
FIRST NAME(S)Oleksandr Oleksiyovich
Date and place of birth:March 18, 1982, KIEV, UKRAINE
Nationality:Ukrainian
Family status:Married
Business AddressInstitute of Molecular Biology and Genetics of NASU
150 Zabolotnogo st., 03143 Kiev, UKRAINE
Tel. +380442000328, E-mail alex_sold@yahoo.com

Education

1998–2004Graduate student: Kiev National Aviation University, Faculty of System Equipment, Special Option: Diagnostics and Maintenance of Medical Equipments.
2005–2009PhD-student: Institute of Molecular Biology and Genetics of National Academy of Sciences of Ukraine (IMBG of NASU).
Special Option: Biotechnology
Title of PhD thesis: "Development of bioselective elements of mono- and multibiosensors for ecological monitoring"
2015–2018Doctoral studies: Taras Shevchenko National University of Kyiv
Special Option: Biotechnology
Title of Doctor of Science thesis: "Fundamentals of multi-enzyme electrochemical biosensors creation"

Career/Employment

UKRAINE:

2003–2004Engineer-researcher at Institute of Botany of National Academy of Sciences of Ukraine
2004–2007Engineer-researcher at Institute of Molecular Biology and Genetics of National Academy of Sciences of Ukraine (IMBG of NASU)
2007–2009Junior scientific researcher at IMBG of NASU
2009–2011Scientific researcher at IMBG of NASU
2011–2019Senior researcher at IMBG of NASU
2019–2022Lead research scientist, Biomolecular Electronics department, Institute of Molecular Biology and Genetics of NAS of Ukraine
2020–up to nowAssociate Professor of the Department of Translational Medical Bioengineering, National Technical University of Ukraine "Igor Sikorsky Kyiv Polytechnic Institute"
2022–up to nowHead of the Biomolecular Electronics department, Institute of Molecular Biology and Genetics of the NAS of Ukraine

ABROAD:

  • University of Claude Bernard Lyon 1, FRANCE (Dr. R. Cespuglio)
    • work in the frame of NATO Collaborative Linkage Grant # LST.CLG 980008
    • work in the frame of ECO-NET # 12675SG
    • work in the frame of NATO Collaborative Linkage Grant # LST.CLG 982788
  • Ecole Centrale de Lyon, FRANCE (Dr. N. Jaffrezic-Renault)
    • work in the frame of EC Project PIRSES-GA-2008-230802 “NANOBIOSENS”
  • Middle East Technical University, Ankara, TYRKEY (Dr. B. Akata)
    • work in the frame of EC Project PIRSES-GA-2008-230802 “NANOBIOSENS”
    • work in the frame of EC Project PIRSES-GA-2011-318524 “NANODEVICE”
  • University of Claude Bernard Lyon 1, FRANCE (Dr. F. Lagarde)
    • work in the frame of EC Project PIRSES-GA-2011-318524 “NANODEVICE”

Specialization

(i) main fieldBiosensors and Analytical Biotechnology;
(ii) other fieldsBioelectronics, Medical Equipment, Enzymology, Biotechnology, Food Safety, Environmental Monitoring;
(iii) current research interestConductometric, amperometric and potentiometric biosensors, multibiosensors, nano- and microbiosensors, multi-enzyme biosensors

Honours, Awards, Fellowships, Membership in Professional Societies

2005Award for the best publication in the field of biotechnology (IMBG of NASU)
2006Award for the best result of inventive activity (IMBG of NASU)
2008Award for the best publication in the field of biotechnology (IMBG of NASU)
2009NASU charter for the series of scientific papers
2009Prize of the President of Ukraine for young scientists
2010–2012Scholarship of the National Academy of Sciences of Ukraine
2012–2014Scholarship of the President of Ukraine
2014Award "Inventor of the year"
2016Award of Kiev Mayor
2018Award for the best publication in the field of biotechnology (IMBG of NASU)
2018Award “40 Under 40 Emerging Leaders in Biotech”
2018–2019Scholarship of the Ukrainian Cabinet of Ministers
2020–2021Scholarship of the President of Ukraine for young scientists.
2021Named scholarship of the Verkhovna Rada for young scientists - doctors of sciences
2022–2023Scholarship of the National Academy of Sciences of Ukraine for young scientists
2022Named scholarship of the Verkhovna Rada for young scientists - doctors of sciences
2023Verkhovna Rada Prize for Young Scientists
2023Scholarship named after Academician of the National Academy of Sciences of Ukraine B.E. Paton for young scientists
2024Talents for Ukraine competition award from KSE Foundation

Publications (more than 400):

  • Articles: 132 (including 67 foreign Q1 and Q2 publications)
  • Conference presentations: 215
  • Book chapters: 4
  • Patents: 43
  • H-index: 26

Scopus profile: https://www.scopus.com/authid/detail.uri?authorId=14040843900

ORCID: https://orcid.org/0000-0003-2362-5487

Recent selected publications:

  1. 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.
  2. 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.
  3. 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
  4. Ya.I. Korpan, O.O.Soldatkin, O.F. Sosovska, H.M. Klepach, E. Csoregi, F. Vocanson, N.Jaffrezic-Renault, M.V. Gonchar Formaldehyde-sensetive conductometric sensors based on commercial and recombinant formaldehyde dehydrogenase // Microchim. Acta, - 2010, - V. 170 – P. 337-344.
  5. 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
  6. 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
  7. A.S. Pavluchenko, A.L. Kukla, Yu.V. Goltvianskyi, O.O. Soldatkin, V.M. Arkhipova, S.V. Dzyadevych, A.P. Soldatkin Investigation of stability of the pH-sensitive field-effect transistor characteristics, // Sensor Letters, 2011, Vol. 9, Pages 2392-1396
  8. 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, Vol. 9, Pages 2320-2326
  9. 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
  10. I.S. Kucherenko, O.O.Soldatkin, V.M. Arkhypova, S.V. Dzyadevych, A.P. Soldatkin, A novel biosensor method for surfactant determination based on acetylcholinesterase inhibition, Measurement Science and Technology, - 2012, - Vol. 23 (6), art. no. 065801
  11. 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
  12. 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
  13. 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
  14. O.O. Soldatkin, I.S. Kucherenko, M. Shelyakina, E. Soy, K. Kirdeciler, S. Öztürk, B. Akata, N. Jaffrezic-Renault, S.V. Dzyadevych, A.P. Soldatkin, Application of different zeolite for improvement of the characteristics of a pH-FET biosensor based on immobilized urease, // Electroanalysis - 2013, -Vol. 25, No. 2, - Pages 468-474
  15. O.O. Soldatkin, V.M. Peshkova, O.Y. Saiapina, I.S. Kucherenko, O.Y. Dudchenko, V.G. Melnik, 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, Vol. 115, P. 200-207
  16. E. Soy, S. Galioglu, O.O. Soldatkin, S. Dzyadevych, J. Warzywoda, A. Sacco Jr., B.Akata Direct evidence of advantage of using nanosized zeolite Beta for ISFET-based biosensor construction, // Journal of Nanoparticle Research – 2013. – Vol. 15 (5), art. no. 1645
  17. 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: Chemical – 2013. – Vol. 188. – P. 999-1003.
  18. M. Shelyakina, V. Arkhypova, O. Soldatkin, O. Saiapina, B. Akata, S. Dzyadevych, Urease-based ISFET biosensor for arginine determination, // Talanta -2014 -Vol. 121 -Pages 18-23
  19. A.L. Kukla, O.O.Soldatkin A.S. Pavluchenko I.S. Kucherenko, V.M. Peshkova, V.N. Arkhypova, S.V. Dzyadevych, Toxicity analysis of real water samples of different origin with ISFET multibiosensor, // Biochemistry and Biophysics – 2014. – Vol. 2. - № 1. – P. 7-12.
  20. M. Shelyakina, O. Soldatkin, V. Arkhypova, B.O. Kasap, B. Akata, S. Dzyadevych, Study of zeolite influence on analytical characteristics of urea biosensor based on ion-selective field-effect transistors, Nanoscale Research Letters – 2014. – Vol. 9, art. №. 124
  21. O.O. Soldatkin, I.S. Kucherenko, S.V. Marchenko, B.O. Kasap, B. Akata, A.P. Soldatkin, S.V. Dzyadevych, Application of enzyme/zeolite sensor for urea analysis in serum, // Materials Science and Engineering: C, - 2014, - Vol. 42, - Pages 155-160
  22. I.S. Kucherenko, D.Yu. Didukh, O.O.Soldatkin, A.P. Soldatkin, Amperometric biosensor system for simultaneous determination of adenosine-5’-triphosphate and glucose, Analytical Chemistry, - 2014, - Vol. 86, - Pages 5455-5462
  23. O. Syshchuk, O.Soldatkin, V.A. Skryshevsky, A.P. Soldatkin, Enzyme biosensor systems based on porous silicon photoluminescence for detection of glucose, urea and heavy metals. Biosensors and Bioelectronics, - 2015, - Vol. 66, - Pages 89-94
  24. S.V. Marchenko, I.S. Kucherenko, A.N. Hereshko, I.V. Panasiuk, O.O. Soldatkin, A.V. El’skaya A.P. Soldatkin Application of potentiometric biosensor based on recombinant urease for urea determination in blood serum and hemodialyzate, Sensors and Actuators B: Chemical, - 2015, - Vol. 207, - Pages 981-986
  25. 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
  26. O. Soldatkin, A. Nazarova, N. Krisanova, A. Borуsov, D. Kucherenko, I. Kucherenko, N. Pozdnyakova, A. Soldatkin, T. Borisova, Monitoring of the velocity of high-affinity glutamate uptake by isolated brain nerve terminals using amperometric glutamate biosensor, Talanta, -2015, -Vol. 135 -Pages 67-74
  27. O.O. Soldatkin, M.K. Shelyakina, V.N. Arkhypova, E. Soy, K. Kirdeciler, B. O. Kasap, F. Lagarde, N. Jaffrezic-Renault, B. Akata, A.P. Soldatkin, S.V. Dzyadevych, Nano- and microsized zeolites as a perspective material for potentiometric biosensors creation, // Nanoscale Research Letters – 2015. – Vol.10, art. №. 59
  28. V.N. Pyeshkova, O.Y. Dudchenko, O.O. Soldatkin, B. O. Kasap, F. Lagarde, B. Akata, S.V. Dzyadevych, Application of silicalite-modified electrode for the development of sucrose biosensor with improved characteristics, // Nanoscale Research Letters – 2015. – Vol. 10, art. №. 149
  29. I.S. Kucherenko, O.O. Soldatkin, B. O. Kasap, K. Kirdeciler, B. Akata, S.V. Dzyadevych, Nanosized zeolites as a perspective material for conductometric biosensors creation, // Nanoscale Research Letters – 2015. – Vol. 10, art. №. 209
  30. I.Kucherenko, O. Soldatkin, F. Lagarde, N.Jaffrezic-Renault, S. Dzyadevych, A. Soldatkin, Determination of total creatine kinase activity in blood serum using an amperometric biosensor based on glucose oxidase and hexokinase, // Talanta -2015, -Vol. 144 -Pages 604-611
  31. K.V. Stepurska, O.O. 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, -Vol. 144 -Pages 1079-1084
  32. 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
  33. I.S Kucherenko, D.Y. Kucherenko, O.O. Soldatkin, F. Lagarde, S.V. Dzyadevych A.P. Soldatkin, A novel conductometric biosensor based on hexokinase for determination of adenosine triphosphate, Talanta -2016 -Vol. 150 -Pages 469-475
  34. 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
  35. T.P. Velychko, O.O. Soldatkin, V.G. Melnyk, S.V. Marchenko, S.K. Kirdeciler, B. Akata, A.P Soldatkin A.V. El’skaya S.V. Dzyadevych A novel conductometric urea biosensor with improved analytical characteristic based on recombinant urease adsorbed on nanoparticle of silicalite, // Nanoscale Research Letters – 2016. – Vol. 11, art. №. 106
  36. S.V. Marchenko, O.O. Soldatkin, B. O. Kasap, B. Akata, A.P Soldatkin S.V. Dzyadevych, Creatinine deiminase adsorbtion onto silicalite-modified pH-FET for creation of new creatinine-sensitive biosensor, // Nanoscale Research Letters – 2016. – Vol. 11, art. №. 173
  37. 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: Chemical, - 2017, - Vol. 239, - Pages 1010-1015
  38. O.V. Soldatkina, B.O. Kasap, D. Kucherenko, I. S. Kucherenko, B. Akata, S. Dzyadevych, A novel amperometric glutamate biosensor based on glutamate oxidase adsorbed on silicalite, // Nanoscale Research Letters – 2017. – Vol. 12, art. №. 260
  39. B.O. Kasap, S.V. Marchenko, O.O. Soldatkin, S.V. Dzyadevych, B. Akata Biosensor based on nano-gold/zeolite-modified ion selective field-effect transistors for creatinine detection, // Nanoscale Research Letters – 2017. – Vol. 12, art. №. 162
  40. 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
  41. T. Borisova, D. Kucherenko, O. Soldatkin, A. Pastushov, A. Nazarova, M. Galkin, A. Borуsov, N. Krisanova, A. Soldatkin, A. El’skaya, An amperometric glutamate biosensor for monitoring glutamate release brain nerve terminals and in blood plasma, // Analytica Chimica Acta -2018 -Vol. 1022 -Pages 113-123
  42. O.O. Soldatkin, S.V. Marchenko, O.V. Soldatkina, S.O. Cherenok, O.I. Kalchenko, O.S. Prynova, O.M. Sylenko, V.I. Kalchenko, S.V. Dzyadevych, Conductometric sensor with calixarene-based chemosensitive element for arginine detection, // Chemical Papers– 2018. – Vol. 72. – P. 2687-2697.
  43. 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
  44. S.V. Marchenko, O.O. Soldatkin, L.A. Kolomiets O.I. Kornelyuk A.P. Soldatkin, Cyclodextrins application in urease-based biosensor for urea determination, Sensor Letters (2018) 16:298–303
  45. O.V. Soldatkina, I. S. Kucherenko, O.O. Soldatkin, V.M. Pyeshkova, O.Y. Dudchenko, B. Akata Kurç, S.V. Dzyadevych, Development of electrochemical biosensors with various types of zeolites, // Applied Nanoscience, - 2019 - Vol. 9 - P. 737–747
  46. S.O. Cherenok, O.O. Soldatkin S.V. Marchenko, O.V. Soldatkina, O.I. Kalchenko, O.S. Prineva O.M. Silenko, S.V. Dzyadevych, V.I. Kalchenko, 3-Methylsulfidopropoxy calixarene methylenebisphosphonic acid for aminoacids chemosensor, // Phosphorus, Sulfur, and Silicon and the Related Element - 2019, - Volume 194, - Issue 4-6, - Pages 382-383.
  47. I. Kucherenko Y. Topolnikova, O. Soldatkin, Advances in the biosensors for lactate and pyruvate detection for medical applications: A review, Trends in Analytical Chemistry, -2019, -Vol 110, -P. 160-172.
  48. D.Yu. Kucherenko, I.S. Kucherenko, O.O. Soldatkin, Ya.V. Topolnikova, S.V. Dzyadevych, A.P. Soldatkin, A highly selective amperometric biosensor array for the simultaneousdetermination of glutamate, glucose, choline, acetylcholine, lactate and pyruvate, // Bioelectrochemistry -2019, -Vol 128, -P. 100–108
  49. I. S. Kucherenko, O.O. Soldatkin, D.Yu. Kucherenko, O.V. Soldatkina, S.V. Dzyadevych, Advances in nanomaterial application in enzyme-based electrochemical biosensors: review, Nanoscale Advances, 2019, DOI: 10.1039/c9na00491b
  50. 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, - Vol. 31, - P. 1625-1631
  51. 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.
  52. 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.
  53. V.V. Balatskyi, V.O. Vaskivskyi, A. Moronova, D. Avramets, K. Abu Nahia, L.L. Macewicz, T.P. Ruban, D.Yu. Kucherenko, O.O. Soldatkin, I.V. Lushnikova , G.G. Skibo, C.L. Winata, P. Dobrzyn, O.O. Piven, Cardiac-specific b-catenin deletion dysregulates energetic metabolism and mitochondrial function in perinatal cardiomyocytes, Mitochondrion, -2021, -Vol. 60, -Pages 59-69
  54. 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.
  55. 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.
  56. 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.
  57. 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.
  58. 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
  59. 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
  60. 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.
  61. 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.
  62. 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.
  63. 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
  64. K.Berketa, D.Mruga, 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.
  65. 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.
  66. 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.
  67. V. Martsenyuk, O.Soldatkin, A. Klos-Witkowska, A. Sverstiuk, K.Berketa, Operational stability study of lactate biosensors: modeling, parameter identification, and stability analysis, Frontiers. Bioengineering and Biotechnology.– 2024.– Vol.12 - 1 385459
  68. 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
  69. D. Mruga, K. Berketa, A.Sverstiuk, V.Martsenyuk, A.Klos-Witkowska, Y.Palianytsia, S. Dzyadevych, O.Soldatkin, Amperometric Biosensor Based on Glutamate Oxidase to Determine AST Activity, Sensors.- 2024, 24, 7891. https://doi.org/10.3390/s24247891
  70. D.Mruga, S.Dzyadevych, O.Soldatkin. Development and optimisation of the biosensor for aspartate aminotransferase blood level determination. Analytical and Bioanalytical Chemistry, 2025, 417, pages 721–731 https://doi.org/10.1007/s00216-024-05682-2
  71. K. Berketa, A. Buzhak, Ye. Vakhovskyi, D. Mruga, A. Sverstiuk, O. Soldatkina, O. Lyubovyche, O. Marchuk, S. Dzyadevych, O. Soldatkin, Amperometric biosensor based on a semipermeable poly-meta-phenylenediamine membrane and immobilized lactate oxidase for highly accurate L-lactate determination in blood serum, Electroanalysis.- 2025.- Volume37, Issue1, e12011 https://doi.org/10.1002/elan.12011