Кафедра експериментальної фізики

Кафедра експериментальної фізики
Фізичний факультет

Петрушенко Сергій Іванович

На изображении может находиться: 1 человек


    Старший науковий співробітник НДЧ Харківського національного університету імені В.Н. Каразіна кафедри експериментальної фізики, кандидат фізико-математичних наук

    Адресa:  61022, Україна, м. Харків, пл. Свободи, 4,
    ХНУ імені В.Н. Каразіна, фізичний факультет, кафедра експериментальної фізики.
    Телефон: +38 (057) 707-55-89;
    E-mail: petrushenko@univer.kharkov.ua

   Свою наукову діяльність Сергій Петрушенко розпочав ще під час навчання. У 2011 році закінчив магістратуру Харківського національного університету імені В.Н. Каразіна і був зарахований на посаду інженера науково-дослідної частини ХНУ. У 2018 році захистив кандидатську дисертацію «Фазові перетворення та температурна еволюція морфологічної будови багатошарових плівок, які складаються з шарів легкоплавких металів (Pb, Bi, Sn або In) та більш тугоплавких речовин (C, Mo або Cu)». На сьогодні він працює на посаді старшого науково співробітника НДЧ Харківського національного університету імені В.Н. Каразіна, а його науковий доробок включає більше 30 наукових праць, що проіндексовані БД Scopus. Наукова робота присвячена особливостям термічної стабільності одно- і багатокомпонентних плівок, внутрішнього розмірного ефекту та розчинності в високодисперсних системах. Також він досліджує високодисперсні функціональні структури та надає допомогу науковцям України в проведенні електронно-мікроскопічних досліджень.

Основні наукові та науково-методичні публікації:

Монографії та розділи монографій:

1. Температурна стійкість переохолодженої рідкої фази в конденсованих плівках : монографія (Монографія) / С. В. Дукаров, С. І. Петрушенко, С. І. Богатиренко, В. М. Сухов. – Харків : ХНУ імені В. Н. Каразіна, 2019. – 212 с. ISBN 978-966-285-601-9.
2. Petrushenko, S. I., Dukarov, S. V., Bloshenko, Z. V., Churilov, I. G., & Sukhov, V. N. Effect of Temperature on the Growth of Pores in Binary Bi/Sn Films. In Advances in Thin Films, Nanostructured Materials, and Coatings. Lecture Notes in Mechanical Engineering. – Springer, Singapore, 2019. – P. 159–167.
https://doi.org/10.1007/978-981-13-6133-3_16 (Розділ монографії)
3. Dukarov, S. V., Petrushenko, S. I., Miroshnychenko, V. V., Nevgasimov, O. O., & Sukhov, V. N. (2019). Effect of Temperature on Phase Formation in Thin Bilayer Ni/GaAs Films. In Advances in Thin Films, Nanostructured Materials, and Coatings. Lecture Notes in Mechanical Engineering. – Springer, Singapore, 2019. – P. 297–307. https://doi.org/10.1007/978-981-13-6133-3_29  (Розділ монографії)

Навчальні посібники

1. Фазові перетворення у нанорозмірних системах : навчальний посібник / С. В. Дукаров, С. І. Петрушенко, Р. В. Сухов, В. М. Сухов. – Х. : ХНУ імені В. Н. Каразіна, 2019. – 120 с. ISBN 978-966-285-524-1. (Навчальний посібник)

Основні статті в наукових виданнях

  1. 1. Miroshnichenko, D., Lebedev, V., Lebedeva, K., Cherkashina, А., Petrushenko, S., Bogoyavlenska, O., Olkhovska, А., Hrubnyk, I., Maloshtan, L., Klochko, N. Thermosensitive and Wound-Healing Gelatin-Alginate Biopolymer Hydrogels Modified with Humic Acids (2024) Journal of Renewable Materials, 12 (10), pp. 1691-1713.
    https://doi.org/10.32604/jrm.2024.054769

  2. 2. Petrushenko, S., Dukarov, S., Fijalkowski, M., Sukhov, V. Accelerated recrystallization of nanocrystalline films as a manifestation of the inner size effect of the diffusion coefficient (2024) Vacuum, 226, art. no. 113349,
    https://doi.org/10.1016/j.vacuum.2024.113349

  3. 3. Klochko, N.P., Barbash, V.A., Kopach, V.R., Petrushenko, S.I., Shepotko, Y.M., Yashchenko, O.V., Fijalkowski, M., Adach, K.I., Dukarov, S.V., Sukhov, V.M., Khrypunova, A.L. Composite fabric with nanocellulose impregnated cotton for eco-friendly thermoelectric textile (2024) Cellulose, 31 (9), pp. 5947-5961.
    https://doi.org/10.1007/s10570-024-05953-2

  4. 4. Kolosova, O.S., Efremenko, Y., Laurinavichyute, V.K., Nizamov, S., Petrushenko, S.I., Mirsky, V.M. Poly-3-thienylboronic Acid Nanoparticles: Synthesis, Characterization, and Interaction with Saccharides Studied at the Level of Individual Nanoparticles (2024) ACS Applied Nano Materials, 7 (10), pp. 11120-11135.
    https://doi.org/10.1021/acsanm.4c00216

  5. 5. Klochko, N.P., Kopach, V.R., Petrushenko, S.I., Shepotko, E.M., Dukarov, S.V., Sukhov, V.M., Khrypunova, A.L. COPPER-ENRICHED NANOSTRUCTURED CONDUCTIVE THERMOELECTRIC COPPER(I) IODIDE FILMS OBTAINED BY CHEMICAL SOLUTION DEPOSITION ON FLEXIBLE SUBSTRATES (2024) Ukrainian Journal of Physics, 69 (2), pp. 115-123.
    https://doi.org/10.15407/ujpe69.2.115

  6. 6. Miroshnichenko, D., Lebedeva, K., Lebedev, V., Cherkashina, А., Petrushenko, S., Hrubnyk, I., Yudina, Y., Bogoyavlenska, O., Klochko, N., Lysenko, L., Miroshnychenko, M. Hemostatic Ability of Thermosensitive Biologically Active Gelatin-Alginate Hydrogels Modified with Humic Acids and Impregnated with Aminocaproic Acid (2024) Journal of Research Updates in Polymer Science, 13, pp. 155-160.
    https://doi.org/10.6000/1929-5995.2024.13.16

  7. 7. Lebedev, V., Lebedeva, K., Cherkashina, А., Petrushenko, S., Bogatyrenko, S., Olkhovska, А., Hrubnyk, I., Maloshtan, L., Kopach, V., Klochko, N. Hemostatic Gelatin-Alginate Hydrogels Modified with Humic Acids and Impregnated with Aminocaproic Acid (2024) Journal of Research Updates in Polymer Science, 13, pp. 34-44.
    https://doi.org/10.6000/1929-5995.2024.13.05

  8. 8. Petrushenko, S.I., Fijalkowski, M., Kopach, V.R., Shepotko, Y.M., Adach, K., Dukarov, S.V., Sukhov, V.M., Fedonenko, A., Khrypunova, A.L., Klochko, N.P. Carbon fabric coated with nanostructured zinc oxide layers for use in triboelectric self-powered touch sensors (2024) Journal of Materials Science: Materials in Electronics, 35 (6), art. no. 414,
    https://doi.org/10.1007/s10854-024-12187-2

  9. 9. Serdiuk, I.V., Petrushenko, S.I., Stolbovyi, V.O., Fijalkowski, M. Influence of Technological Parameters of Deposition on Physical and Mechanical Properties of Vacuum-Arc Multilayer Nitride Coatings Based on Chromium and Niobium (2024) Metallofizika i Noveishie Tekhnologii, 46 (1), pp. 23-46.
    https://doi.org/10.15407/mfint.46.01.0023

  10. 10. Petrushenko, S.I., Fijalkowski, M., Kopach, V.R., Shepotko, Y.M., Adach, K., Dukarov, S.V., Sukhov, V.M., Fedonenko, A., Khrypunova, A.L., Klochko, N.P. Triboelectric Nanogenerators Based on Nanostructured Layers of Zinc Oxide Deposited on Carbon Fabric (2023) Journal of Composites Science, 7 (12), art. no. 496,
    https://doi.org/10.3390/jcs7120496

  11. 11. Razzokov, A.S., Saidov, A.S., Allabergenov, B., Choi, B., Petrushenko, S.I., Dukarov, S.V. Studies of the crystal structure of solid solutions (Sn2)1−x−y(GaAs)x(ZnSe)y, (GaAs)1−x(ZnSe)x grown from liquid phase (2023) Journal of Crystal Growth, 612, art. no. 127203,
    https://doi.org/10.1016/j.jcrysgro.2023.127203

  12. 12. Usenko, E., Glamazda, A., Svidzerska, A., Valeev, V., Laguta, A., Petrushenko, S., Karachevtsev, V. DNA:TiO2 nanoparticle nanoassemblies: effect of temperature and nanoparticle concentration on aggregation (2023) Journal of Nanoparticle Research, 25 (6), art. no. 113,
    https://doi.org/10.1007/s11051-023-05770-x

  13. 13. Nevgasimov, O.O., Petrushenko, S.I., Dukarov, S.V., Sukhov, V.M. Inversion of the temperature coefficient of resistance of chromium films as the result of their nanocrystalline structure (2023) Low Temperature Physics, 49 (4), pp. 443-447.
    https://doi.org/10.1063/10.0017585

  14. 14.Grib, A., Petrushenko, S., Dukarov, S., Prikhna, T., Serbenyuk, T. The study of homogeneity of the hexagonal Ti3AlC2phase with inclusions of the titanium carbide (2023) Low Temperature Physics, 49 (4), pp. 433-437.
    https://doi.org/10.1063/10.0017583

  15. 15. Grib, A., Vitort, M., Petrushenko, S., Dukarov, S. Diffusion of the hydrogen in nanocrystalline vanadium films (2023) Low Temperature Physics, 49 (4), pp. 415-421.
    https://doi.org/10.1063/10.0017580

  16. 16. Grib, A., Khadzhai, G., Petrushenko, S., Dukarov, S., Kislitsa, M., Prikhna, T., Serbenyuk, T., Samsonik, A., Sukhov, V., Vovk, R. The Electrical Resistivity of Multiphase Systems Based on the Ti3AlC2 Hexagonal Phase at Low Temperatures (2023) Physica Status Solidi (B) Basic Research, 260 (2), art. no. 2200298,
    https://doi.org/10.1002/pssb.202200298

  17. 17. Petrushenko, S., Fijalkowski, M., Dukarov, S., Klochko, N., Sukhov, V., Kopach, V. Networked ZnO nanosheets produced by automatic SILAR method (2023) 2023 IEEE 4th KhPI Week on Advanced Technology, KhPI Week 2023 - Conference Proceedings,
    https://doi.org/10.1109/KhPIWeek61412.2023.10312837

  18. 18. Klochko, N.P., Barbash, V.A., Petrushenko, S.I., Kopach, V.R., Shepotko, Y.M., Dukarov, S.V., Sukhov, V.M., Yashchenko, O.V., Khrypunova, A.L. Flexible Environmentally Friendly Thermoelectric Material Made of Copper (1) Iodide and Nanocellulose for Green Energy (2023) Journal of Nano- and Electronic Physics, 15 (4), art. no. 04003,
    https://doi.org/10.21272/jnep.15(4).04003

  19. 19. Nevgasimov, O.O., Petrushenko, S.I., Dukarov, S.V., Sukhov, V.M. Inversion of the temperature coefficient of resistance of chromium films as the result of their nanocrystalline structure (2023) Fizika Nizkikh Temperatur, 49 (4), pp. 482-486.
    https://doi.org/10.1063/10.0017585

  20. 20. Grib, A., Petrushenko, S., Dukarov, S., Prikhna, T., Serbenyuk, T. The study of homogeneity of the hexagonal Ti3AlC2 phase with inclusions of the titanium carbide (2023) Fizika Nizkikh Temperatur, 49 (4), pp. 471-475.
    https://doi.org/10.1063/10.0017583

  21. 21. Grib, A., Vitort, M., Petrushenko, S., Dukarov, S. Diffusion of the hydrogen in nanocrystalline vanadium films (2023) Fizika Nizkikh Temperatur, 49 (4), pp. 452-458.
    https://doi.org/10.1063/10.0017580

  22. 22. Dukarov, S., Petrushenko, S., Sukhov, R., Sukhov, V. Nanostructured Silver Films with a Low Coefficient of Thermal Expansion as a Promising Material for Nanoelectronics (2023) Physica Status Solidi (A) Applications and Materials Science, 220 (2), art. no. 2200664,
    https://doi.org/10.1002/pssa.202200664

  23. 23. Grankina, I.I., Borovoy, I.A., Petrushenko, S.I., Hrankina, S.S., Semynozhenko, V.P., Yefimova, S.L., Sorokin, A.V. Fluorescent properties of amphi-PIC J-aggregates in the complexes with bovine serum albumin (2022) Journal of Molecular Liquids, 368, art. no. 120755,
    https://doi.org/10.1016/j.molliq.2022.120755

  24. 24. Usenko, E., Glamazda, A., Valeev, V., Svidzerska, A., Laguta, A., Petrushenko, S., Karachevtsev, V. Effect of TiO2 nanoparticles on the thermal stability of native DNA under UV irradiation (2022) Applied Physics A: Materials Science and Processing, 128 (10), art. no. 900,
    https://doi.org/10.1007/s00339-022-06043-5

  25. 25. Saidov, A.S., Razzokov, A.S.H., Petrushenko, S.I., Dukarov, S.V. Obtaining Si-Si1-xGex-(Si1-xGex)1-z(Al1-yGayAs)z-Si1-xGex-(Si1-xGex)1-z(Al1-yGayAs)z Structures from a Tin Solution-Melt in a Single Technological Cycle (2022) Acta Physica Polonica A, 142 (2), pp. 280-284.
    https://doi.org/10.12693/APhysPolA.142.280

  26. 26. Dukarov, S.V., Petrushenko, S.I., Sukhov, V.N. Inner size effect of temperature coefficient of resistance in Cu, Ag, V and Mo films (2022) Vacuum, 202, art. no. 111148,
    https://doi.org/10.1016/j.vacuum.2022.111148

  27. 27. Klochko, N.P., Barbash, V.A., Klepikova, K.S., Petrushenko, S.I., Kopach, V.R., Yashchenko, O.V., Dukarov, S.V., Sukhov, V.M., Khrypunova, A.L. Thermoelectric textiles with nanostructured copper iodide films on cotton and polyester fabrics, stabilized and reinforced with nanocellulose (2022) Journal of Materials Science: Materials in Electronics, 33 (20), pp. 16466-16487.
    https://doi.org/10.1007/s10854-022-08538-6

  28. 28. Sova, K.Yu., Vakula, A.S., Kalmykova, T.V., Tarapov, S.I., Petrushenko, S.I., Belous, A.G., Solopan, S.O. Low-temperature ferromagnetic resonance in bare and SiO2coated La0.775Sr0.225MnO3nanoparticles (2022) Low Temperature Physics, 48 (4), pp. 330-335.
    https://doi.org/10.1063/10.0009738

  29. 29. Klochko, N.P., Klepikova, K.S., Khrypunova, I.V., Kopach, V.R., Tyukhov, I.I., Petrushenko, S.I., Dukarov, S.V., Sukhov, V.M., Kirichenko, M.V., Khrypunova, A.L. Solution-processed flexible broadband ZnO photodetector modified by Ag nanoparticles (2022) Solar Energy, 232, pp. 1-11.
    https://doi.org/10.1016/j.solener.2021.12.051

  30. 30. Petrushenko, S., Dukarov, S., Sukhov, V. Temperature Limits of the Existence of the Liquid Phase of Bismuth Particles that are in Contact with Nanocrystalline Vanadium Films (2022) Proceedings of the 2022 IEEE 12th International Conference "Nanomaterials: Applications and Properties", NAP 2022,
    https://doi.org/10.1109/NAP55339.2022.9934108

  31. 31. Klochko, N.P., Klepikova, K.S., Kopach, V.R., Shepotko, E.M., Kirichenko, M.V., Khrypunova, A.L., Barbash, V.A., Yakymenko, O.S., Yashchenko, O.V., Petrushenko, S.I., Dukarov, S.V., Sukhov, V.M. Flexible textile thermoelectric materials with CuI nanostructured films deposited on composites of nanocellulose and polyester fabric (2022) 2022 IEEE 3rd KhPI Week on Advanced Technology, KhPI Week 2022 - Conference Proceedings,
    https://doi.org/10.1109/KhPIWeek57572.2022.9916480

  32. 32. Myla, D.E., Bryukhovetsky, V.V., Lytvynenko, V.V., Petrushenko, S.I., Nevgasimov, O.O., Lonin, Y.F., Ponomarev, A.G., Uvarov, V.T. MICROSTRUCTURE AND PROPERTY MODIFICATIONS IN SURFACE LAYERS OF A AA6111 ALUMINUM ALLOY INDUCED BY HIGH-CURRENT PULSED RELATIVISTIC ELECTRON BEAM (2022) Problems of Atomic Science and Technology, 2022 (2), pp. 25-31.   
    https://doi.org/10.46813/2022-138-025

  33. 33. Bryukhovetsky, V.V., Klepikov, V.F., Lytvynenko, V.V., Myla, D.Ye., Petrushenko, S.I., Bychko, V.A., Lonin, Yu.F., Ponomarev, A.H. Surface Morphology and Properties of the Surface Layer of AA6111 Aluminium Alloy Treated by a Pulsed Beam of Relativistic Electrons (2022) Metallofizika i Noveishie Tekhnologii, 44 (4), pp. 515-530.
    https://doi.org/10.15407/mfint.44.04.0515

  34. 34. Razzokov, A.Sh., Saidov, A.S., Petrushenko, S.I., Dukarov, S.V. Obtaining semiconductor structures Si-Si1-xGex-Si1-x-yGexSny, from the liquid phase in a single technological cycle [Отримання напівпровідникових структур Si-Si1-xGex-Si1-x-yGexSny з рідкої фази за один технологічний цикл] (2022) Functional Materials, 29 (2), pp. 202-208.
    https://doi.org/10.15407/fm29.02.202

  35. 35. Nevgasimov, O.O., Bohomaz, V.V., Petrushenko, S.I., Dukarov, S.V. Morphology of island structures formed by self-organization processes during melting of lead films (2022) Materials Today: Proceedings, 62, pp. 5787-5795.
    https://doi.org/10.1016/j.matpr.2022.03.491

  36. 36. Klochko, N., Barbash, V., Klepikova, K., Khrypunova, I., Kopach, V., Petrushenko, S., Zhadan, D., Yashchenko, O., Dukarov, S., Sukhov, V., Kirichenko, M., Khrypunova, A. Flexible thermoelectric and photosensitive thin-film material based on nanostructured ZnO:In layer covered by nanocellulose (2022) Materials Today: Proceedings, 62, pp. 5819-5832.
    https://doi.org/10.1016/j.matpr.2022.03.500

  37. 37. Klochko, N., Klepikova, K., Khrypunova, I., Kopach, V., Petrushenko, S., Zhadan, D., Dukarov, S., Sukhov, V., Kirichenko, M., Khrypunova, A. Flexible in-plane thermoelectric modules based on nanostructured layers ZnO and ZnO:In (2022) Materials Today: Proceedings, 62, pp. 5729-5738.
    https://doi.org/10.1016/j.matpr.2022.02.341

  38. 38. Vus, K., Tarabara, U., Danylenko, I., Pirko, Y., Krupodorova, T., Yemets, A., Blume, Y., Turchenko, V., Klymchuk, D., Smertenko, P., Zhytniakivska, O., Trusova, V., Petrushenko, S., Bogatyrenko, S., Gorbenko, G. Silver nanoparticles as inhibitors of insulin amyloid formation: A fluorescence study (2021) Journal of Molecular Liquids, 342, art. no. 117508,
    https://doi.org/10.1016/j.molliq.2021.117508

  39. 39. Dukarov, S.V., Petrushenko, S.I., Sukhov, V.N. Supercooling during crystallisation and thermal dispergation of thin In-Pb films located between molybdenum layers (2021) Thin Solid Films, 734, art. no. 138867,
    https://doi.org/10.1016/j.tsf.2021.138867

  40. 40. Klochko, N.P., Barbash, V.A., Petrushenko, S.I., Kopach, V.R., Klepikova, K.S., Zhadan, D.O., Yashchenko, O.V., Dukarov, S.V., Sukhov, V.M., Khrypunova, A.L. Thermoelectric textile devices with thin films of nanocellulose and copper iodide (2021) Journal of Materials Science: Materials in Electronics, 32 (18), pp. 23246-23265.
    https://doi.org/10.1007/s10854-021-06810-9

  41. 41. Klochko, N.P., Barbash, V.A., Klepikova, K.S., Kopach, V.R., Yashchenko, O.V., Zhadan, D.O., Petrushenko, S.I., Dukarov, S.V., Sukhov, V.M., Khrypunova, A.L. Highly hydrophobic surfaces with rose petal-effect based on nanocellulose films coated by nanostructured CuI layers (2021) Cellulose, 28 (14), pp. 9395-9412.
    https://doi.org/10.1007/s10570-021-04116-x

  42. 42. Khadzhai, G.Y., Vovk, S.R., Vovk, R.V., Gevorkyan, E.S., Kislitsa, M.V., Dukarov, S.V., Petrushenko, S.I., Feher, A., Dobrovolskiy, O.V. Structure-induced features of transport processes in an electroconsolidated FeNi composite (2021) Modern Physics Letters B, 35 (24), art. no. 2150425,
    https://doi.org/10.1142/S021798492150425X

  43. 43. Klochko, N.P., Barbash, V.A., Klepikova, K.S., Kopach, V.R., Tyukhov, I.I., Yashchenko, O.V., Zhadan, D.O., Petrushenko, S.I., Dukarov, S.V., Sukhov, V.M., Khrypunova, A.L. Biodegradable flexible transparent films with copper iodide and biomass-derived nanocellulose for ultraviolet and high-energy visible light protection (2021) Solar Energy, 220, pp. 852-863.
    https://doi.org/10.1016/j.solener.2021.04.014

  44. 44. Barbash, V.A., Yashchenko, O.V., Klochko, N.P., Klepikova, K.S., Kopach, V.R., Zhadan, D.O., Khrypunova, A.L., Petrushenko, S.I., Dukarov, S.V., Sukhov, V.M. Lightweight Flexible Biodegradable Thin-film Thermoelectric Module Based on Thin Films of CuI and Nanocellulose (2021) Proceedings of the 2021 IEEE 11th International Conference "Nanomaterials: Applications and Properties", NAP 2021,
    https://doi.org/10.1109/NAP51885.2021.9568630

  45. 45. Nevgasimov, A., Dukarov, S., Petrushenko, S., Sukhov, R., Bloshenko, Z., Sukhov, V. Effect of Lead and Bismuth on the De-Wetting of Continuous Argentum Films (2021) Proceedings of the 2021 IEEE 11th International Conference "Nanomaterials: Applications and Properties", NAP 2021,
    https://doi.org/10.1109/NAP51885.2021.9568560

  46. 46. Klochko, N.P., Barbash, V.A., Klepikova, K.S., Kopach, V.R., Yashchenko, O.V., Zhadan, D.O., Petrushenko, S.I., Dukarov, S.V., Sukhov, V.M., Khrypunova, A.L. Nanostructured CuI thin films on biodegradable nanocellulose flexible substrates for UV-shielding applications (2021) Molecular Crystals and Liquid Crystals, 717 (1), pp. 80-91.
    https://doi.org/10.1080/15421406.2020.1860532

  47. 47. Klochko, N.P., Khrypunova, I.V., Klepikova, K.S., Kopach, V.R., Zhadan, D.O., Dukarov, S.V., Petrushenko, S.I., Lyubov, V.M., Kirichenko, M.V., Khrypunova, A.L. Wettability of the Cotton and Polyester Fabrics Coated by Nanostructured Indium-doped Zinc Oxide Layers (2021) Journal of Nano- and Electronic Physics, 13 (2), pp. 1-11.
    https://doi.org/10.21272/JNEP.13(2).02036

  48. 48. Bogdanov, V.V., Vovk, R.V., Dukarov, S.V., Kislitsa, M.V., Petrushenko, S.I., Sukhov, V.N., Khadzhai, G.Y., Goulatis, Y.L., Vovk, S.R., Gevorkyan, E.S., Feher, A., Kollar, P., Fuzer, J., Latosinska, J.N. Electron microscopic study of interdiffusion in equiatomic feni composite (2021) Acta Physica Polonica A, 139 (1), pp. 62-65.
    https://doi.org/10.12693/APhysPolA.139.62

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