» Opanasiuk Anatolii Serhiyovych

Head of the Department of Electronics and Computer Engineering, Doctor of Physical and Mathematical Sciences, Professor

DIRECTION OF SCIENTIFIC RESEARCH:

Specialist in the field of researching the physical properties of films of new semiconductor materials (А₂В₆, А₄В₆, their solid solutions, oxide and kesterite compounds) and multilayer structures based on them for the creation of modern microelectronics devices (photodetectors and hard radiation detectors, solar cells, gas detectors, etc.) .

HIRSH INDEX (according to SCOPUS database):

22.

ID 20434256500,

ORCID: 0000-0002-1888-3935

EDUCATION:

2009-2011 y.	Doctoral studies at Sumy State University.
1981-1984 y.	Postgraduate course of Kharkiv National Technical University “KhPI”, Department of Physics of Metals and Semiconductors.
1975-1981 y.	Physical and Technical Faculty of Kharkiv National Technical University “KhPI”. Specialty “Physics of metals”. He graduated from the university with honors.

SCIENTIFIC DEGREES AND TITLES:

2011 y.	Doctor of physics and mathematics, specialty 01.04.01 – “Physics of devices, elements and systems” (Sumy State University). Dissertation topic: “Structural, electrophysical and optical properties of films of А₂В₆ compounds and heterojunctions based on them.”
1986 y.	Candidate of Physics and Mathematical Sciences, specialty 01.04.07 – “Solid State Physics” (Kharkiv National Technical University “KhPI”) Dissertation topic “Obtaining and researching cadmium telluride base layers for film photoelectric converters.”
2013 y.	Professor of the Department of Electronics and Computer Engineering of Sumy State University
1991 y.	Associate Professor of the Department of General and Experimental Physics of Sumy State University

EXPERIENCE:

1985 y.	Junior Research workmate.
1986 y.	Assistant.
1988 y.	Senior Lecturer.
1989 y.	Associate Professor of the Department of General and Experimental Physics (GEP) of Sumy State University (SumSU), Ukraine.
From 1987 р. to 1991 y.	Deputy head of the GEP department for scientific and then educational work.
From 1991 р. to 1994 y.	Head of the GEP department; from 2006 to 2008, acting head of the GEP department.
From 1987 р. to 2006 y.	Dean, and then head of the preparatory department of Sumy State University.
From 1994 р. to 2010 y.	Academic secretary of the specialized academic council for candidate and doctoral theses defenses K.22.01.01, D.55.051.02, K.55.051.02, D.55.051.02.
From 2009 р. to 2011 y.	Doctoral student of the Department of Applied Physics.
From 2011 р. to 2012 y.	Associate Professor of the Department of Applied Physics.
From 2012y. to date	Acting head and head of the department of electronics and computer technology.

TEACHING EXPERIENCE:

Taught educational courses: “Physical foundations of electronic engineering”, “General physics”, “Solid state physics”, “Quantum mechanics”, “Concepts of modern natural science”, “Control and measuring devices”, “Metrology”, “Solid state electronics”, ” Physical and technical foundations of solar energy conversion” for students of Sumy State University.

“Methodology and methods of scientific research” for graduate students of the ELIT and TESET faculties of Sumy State University.

“Modern physical picture of the world”, “Education in the conditions of a change in the scientific paradigm”, “New achievements in science and practice” for teachers of Sumy State University (faculty of professional development).

PARTICIPATION IN SCIENTIFIC PROJECTS:

The executor, responsible executor and head of the following research works:

1	Research on the creation of multilayer photoelectric converters based on cadmium chalcogenides with an efficiency of up to 10%. Responsible executor.
2	Development of ellipsometric methods of research and control of multilayer dielectric and semiconductor coatings. Performer.
3	Methods of calculating and controlling the parameters of multilayer dielectric structures based on two-component CdTe-HgTe compounds. Responsible executor.
4	Development of control methods and mathematical support of the LEF-5 ellipsometer. Performer.
5	Electrophysical properties of multilayer films under conditions of mutual diffusion of elements. Responsible executor.
6	“Research of electrophysical, optical, structural characteristics of thin films and multilayer structures based on A2B6 compounds and their solid solutions”, research work financed from the general fund of the state budget of the Ministry of Education and Science of Ukraine, No. 0107U001292, execution period 2007-2009 yr., scientific supervisor.
7	“Research of structural, optical, electrophysical characteristics of new buffer layers of thin-film solar cells based on cadmium telluride”, research work, which was financed from the general fund of the state budget of the Ministry of Education and Science of Ukraine, No. 0109U001387, implementation period 2009-2011, amount of financing UAH 342,000, scientific supervisor.
8	“Obtaining and researching CdTe films and solid solutions based on it for solar cells and radiation detectors”, research work, which was financed from the general fund of the state budget of the Ministry of Education and Science of Ukraine, No. 0110U001151, implementation period 2010-2012, amount of financing UAH 517.3 thousand, scientific director.
9	“Obtaining and optimizing the properties of nanostructures and films of A2B6 compounds and their solid solutions for optoelectronics, spintronics and solar energy devices”, research work financed from the general fund of the state budget of the Ministry of Education and Science of Ukraine, No. 0113U000131, execution period 2013-2015 yr., the amount of funding is UAH 561.5 thousand, scientific supervisor.
10	“Structural, optical and electrical characteristics of thin and thick films of CdTe solid solutions with isovalent impurities (Mn, Zn) for high-efficiency detectors of ionizing radiation and solar cells, research work financed from the general fund of the state budget of the Ministry of Education and Science of Ukraine, No. 0115U003242, implementation period 2015-2017, amount of financing UAH 503.6 thousand, scientific supervisor.
11	“Synthesis, research and optimization of the properties of cadmium and zinc chalcogenide films doped with rare earth and isovalent impurities”, research work financed from the general fund of the state budget of the Ministry of Education and Science of Ukraine, No. 0116U002619, execution period 2016-2018, scope financing UAH 632.8 thousand, scientific supervisor.
12	“Obtaining and optimizing the properties of films of semiconductors (ZnO, Cu₂ZnSn(S,Se)₄ and metals (Ag, Cu) printed on a 3D printer for electronic devices”, research work financed from the general fund of the Ministry’s state budget of Education and Science of Ukraine, No. 0116U002619, implementation period 2018-2020, amount of funding 1,450,000 UAH, responsible executor.
13	“Synthesis and optimization of the properties of solar cells based on the n-n-ZnO/p-Cu₂ZnSn(S,Se)₄heterojunction, obtained by the printing method using nanoinks”, research work, which was financed from the general fund of the state budget of the Ministry of Education and Science of Ukraine , No. 0119U100398, implementation period 2019-2021, amount of financing UAH 1,450,000, scientific supervisor.
14	“Management of the structural-phase state of nanoparticles and films of new oxide materials deposited by chemical methods for the needs of flexible electronics and solar energy”, research work financed from the general fund of the state budget of the Ministry of Education and Science of Ukraine, No. 0122U000787, due date 2022-2024, amount of financing UAH 2,134,000, scientific supervisor.
15	Joint research cooperation project “Using new materials of buffer and absorption layers for low-cost film polycrystalline CE based on GP” between Sumy State University and Sogang University (Seoul, South Korea), implementation period 2011-2013, amount of funding from the Ministry of Education and Sciences of Ukraine 150,000 hryvnias, scientific supervisor.
16	Joint Ukrainian-Latvian project “Optimization of structure and phase composition of Sn_xSn_y and Zn_1-xMg_xO compounds for third-generation film solar cells” between Sumy State University and Riga Technical University (Riga, Latvia). Contract No. M/80-2018 dated June 19, 2018, implementation period 2018-2019, amount of funding from the Ministry of Education and Science of Ukraine 110,000 UAH, academic supervisor.
17	Grant of the President of Ukraine to support scientific research of young scientists for 2015 “Optimization of the properties of thin films of solid solutions based on A2B6 compounds for use in new generation solar converters” Agreement No. Ф61/70-2015, amount of funding from the State Fund for Fundamental Research UAH 60,000 ., executor.
18	Grant of the National Research Fund of Ukraine, competition “Supporting the research of leading and young scientists”, project title “Promising semiconductor nanomaterials for the needs of flexible electronics: synthesis, development of printing methods and optimization of their structural, optical and photovoltaic properties” Registration number 2020.02/0313, deadline 2020-2022, the amount of funding from the fund is UAH 4,267,766 thousand, scientific supervisor.
19	The NATO project “3D-printed functional elements for flexible electronic devices” under contract No. SPS G5916 within the framework of the “Science for Peace and Security” program, the implementation period is 2022-2024, the amount of funding from the fund is 300,000 euros (11,066,000 UAH .), supervisor.

SUPERVISION OF DISSERTATION WORKS:

Academic supervisor of graduate students, masters and bachelors. 7 PhD theses were defended under his scientific supervision:

№	Аспірант	Посилання
1	Nadiya Volodymyrivna Tyrkusova. “Injection spectroscopy of deep trap centers in cadmium telluride films”, specialty 01.04.07 – solid state physics (2002).	<>
2	Volodymyr Volodymyrovych Kosiak. “Structure of point defects in cadmium telluride films”, specialty 01.04.07 – solid state physics (2009).	<> <>
3	Maksym Mykolayovych Kolesnyk “Structural, electrophysical and optical properties of ZnTe films and ZnTe/CdTe heterojunctions”, specialty 01.04.07 – solid state physics (2010).	<>
4	Denis Ihorovych Kurbatov “Structural, electrophysical and optical properties of ZnS thin films and n-ZnS/p-CdTe heterojunctions”, specialty 04.01.07 – solid state physics (2010)	<>
5	Maksym Mykolayovych Ivashchenko “Structural, optical and electrophysical properties of CdSe and ZnSe films and heterojunctions based on them”, specialty 04.01.01 – physics of devices, elements and systems (2014)	<>
6	Dobrozhan Oleksandr Anatoliyovych “Structural, optical and thermoelectric properties of films and nanoparticles of ZnO, CZTS, CZTSe for photo- and thermal converters”, specialty 04.01.01 – physics of devices, elements and systems (2018)	<>
7	Oleksiy Viktorovych D’yachenko “Optimization of structural, electrical and optical characteristics of layers of thin-film solar cells based on Mg, Zn, Cu oxides obtained by spray pyrolysis”, specialty 04.01.01 – physics of devices, elements and systems (2019).	<>

OTHER ACTIVITIES:

Member of the academic and scientific council of Sumy State University, the scientific council and the council for the quality of education of the ELIT faculty.

Member of the scientific expert council of the Ministry of Education and Culture of Ukraine (section No. 5 “Electronics, radio engineering and telecommunications”) 2015 – until now.

Member of the Scientific and Methodological Commission of the Higher Education Sector of the Scientific and Methodological Council of the Ministry of Education and Culture of Ukraine (NMK 8, 172 “Telecommunications and Radio Engineering”) (2014-2019).

Member of the specialized academic council D 55.051.02 at Sumy State University

Member of the editorial board of the journal “Journal of Nano and Electronic Physics”, which is indexed by the Scopus database, and the journal “Current State of Scientific Research and Technologies in Industry”.

Member of the technical program committee of “The Second International Conference on Information and Telecommunication Technologies and Radio Electronics (UkrMiCo’2017)”

AWARDS AND AWARDS:

Awarded with an Honorary Certificate of the Presidium of the National Academy of Sciences of Ukraine for active participation in the activities of the Small Academy of Sciences of Ukraine (2014),

Certificate of honor from the head of the Sumy regional administration (2018)

By letter of the Mayor of Sumy (2018)

Certificates of honor from the Department of Education and Science of the Sumy Regional State Administration (awarded three times, 2004, 2013, 2015) for significant achievements in scientific research, fruitful scientific and pedagogical activity and work with gifted youth.

Honorary diplomas of Sumy State University (2005, 2007, 2017, 2018).

MAIN SCIENTIFIC PUBLICATIONS:

1	Point defect structure in CdTe and ZnTe thin films /V. Kosyak, M.M. Kolesnik, A.S. Оpanasyuk // Journal of Materials Science: Materials in Electronics. – 2008. – V.19, №1. – P. S375-S381. IF 1,181, Q2.
2	Substrate-temperature effect on the microstructural and optical properties of ZnS films obtained by close-spaced vacuum sublimation / Kurbatov, H. Khlyap, A. Оpanasyuk // Phys. Stat. Sol. A. – 2009. – V.206, №7. – P.1549-1557. IF 1,228, Q2.
3	Native point defects in ZnS films / Kurbatov, V. Kosyak, A. Оpanasyuk, V. Melnik // Phys. (B). Cond. Mater. – 2009. – V.404, №23-24. – Р. 5002–5005. IF 0,822, Q2.
4	Study of the structural and photoluminescence properties of CdTe polycrystalline films deposited by closed space vacuum sublimation / V. V. Kosyak, А.С. Опанасюк, P.M. Bukivskij, Yu. P. Gnatenko // Journal of Crystal Growth. – 2010. – V. 312. –P. 1726–1730. IF 1,737, Q1.
5	Native point defects in ZnS films / Kurbatov, V. Kosyak, A. Оpanasyuk, V. Melnik // Phys. (B). Cond. Mater. – 2009. – V.404, №23-24. – Р. 5002–5005. IF 0,822, Q2.
6	Study of the structural and photoluminescence properties of CdTe polycrystalline films deposited by closed space vacuum sublimation / V. V. Kosyak, А.С. Опанасюк, P.M. Bukivskij, Yu. P. Gnatenko // Journal of Crystal Growth. – 2010. – V. 312. –P. 1726–1730. IF 1,737, Q1.
7	Growth kinetics and stoichiometry of ZnS films / D. Kurbatov, A. Оpanasyuk, S. Duvanov, A. Balogh, H. Khlyap // Solid State Sci. – 2011. –V. 13. – Р. 1068-1071. IF 1,856, Q2.
8	Low-temperature photoluminescence of II-VI films obtained by close-spaced vacuum sublimation/ Yu.P. Gnatenko, P.M. Bukivskij, A.S. Opanasyuk, D.I. Kurbatov, M.M. Kolesnyk, V.V. Kosyak, H. Khlyap // Journal of Luminescence. – 2012. – V. 132. – P. 2885–2888. IF 2,102, Q2.
9	Structural and electrical properties of ZnS/CdTe and ZnTe/CdTe heterostructures / V.V. Kosyak, D.I. Kurbatov, M.M. Kolesnyk, A.S. Opanasyuk, S.N. Danilchenko, Yu.P. Gnatenko // Journal of Materials Chemistry and Physics. – 2013. – V. 138. – P. 731-736. IF 2,234, Q2.
10	Structural and optical properties of vacuum-deposited ZnS nanostructures / D.I. Kurbatov, D.S. Sofronov, H.M. Khlyap, A.S. Opanasyuk // Phys. Status Solidi A. – 2013. – V. 210, №2. – Р. 291-296. IF 1.463, Q1.
11	Photoluminescence of high optical quality CdSe thin films deposited by close-spaced vacuum sublimation / Yu.P. Gnatenko, P.M. Bukivskij, I.O. Faryna, A.S. Opanasyuk, M.M. Ivashchenko // Journal of Luminescence. – 2014. – V. 146. – P. 174-177. IF 2,367, Q2.
12	Composition variations in Cu₂ZnSnSe₄ thin films analyzed by XRD, EDS, PIXE, and Raman spectroscopy / D. Nam, P.V. Koval, A.S. Opanasyuk, A.G.Ponomarev, G. Kim, W. Jo, Cheong H. // Thin Solid Films. – 2014. – V. 562. – P. 109-113. IF 1,867, Q1
13	Study of the correlation between structural and photoluminescence properties of CdSe thin films deposited by close-spaced vacuum sublimation / Yu.P. Gnatenko, M.M. Ivashchenko, A.S. Opanasyuk, P.M. Bukivskij, I.O. Faryna // Materials Science in Semiconductor Processing. – 2014. – V. 26. – P.663-668. IF 1,761, Q2.
14	Influence of substrate temperature on the structural and optical properties of crystalline ZnO films obtained by pulsed spray pyrolysis / O. Dobrozhan, D. Kurbatov, A. Opanasyuk, H. Cheong, A. Cabot // Surface and Interface Analysis» 2015, V.47, №5. – Р. 601–606. IF 1,245, Q2.
15	Influence of the deposition conditions on morphological, structural, optical and electro-physical properties of ZnSe films obtained by close-spaced vacuum sublimation / M.M. Ivashchenko, I.P. Buryk, A.S. Opanasyuk, D. Nam, H. Cheong, Ja.G. Vaziev, V.V. Bibyk // Materials Science in Semiconductor Processing. – 2015. – V.36. – P.13-19. IF 1,955, Q2.
16	Morphological, structural properties and IR-spectroscopy of CdSe films deposited by close-spaced vacuum sublimation / М.M. Ivashchenko, А.S. Opanasyuk, V.I. Perekrestov, V.V. Kosyak, Yu.P. Gnatenko, V.M. Kolomiets // Vacuum. – 2015. – V.119. – P. 81-87. IF 1.858, Q2.
17	Substructural investigations, Raman and FTIR spectroscopies of nanocrystalline ZnO films deposited by pulsed spray pyrolysis / O. Dobrozhan, A. Opanasyuk, M. Kolesnyk, M. Demydenko, H. Cheong // Phys. Status Solidi A. – 2015. – V.212, №.12. – P.2915–2921. IF 1.616, Q1.
18	Photoluminescence of CdZnTe thick films obtained by close-spaced vacuum sublimation / V. Kosyak, Y. Znamenshchykov, A. Čerškus, L. Grase, Yu. P. Gnatenko, A. Medvids, A. Opanasyuk, G. Mezinskis // Journal of Luminescence. – 2016. – V.171. – P.176-182. IF 2,719, Q2.
19	Structural and electrical properties of SnS₂ thin films / A. Voznyi, V. Kosyak, A. Opanasyuk, N. Tirkusova, L. Grase, A. Medvids, G. Mezinskis // Materials Chemistry and Physics. – 2016. – V.173. – P. 52–61. IF 2.259, Q2.
20	Composition dependence of structural and optical properties of Cd_1-xZn_xTe thick films obtained by the close-spaced sublimation / V. Kosyak, Y. Znamenshchykov, A. Čerškus, E. Dauksta, Y.P. Gnatenko, L. Grase, J. Vecstaudza, A. Medvid, A. Opanasyuk, G. Mezinskis // Journal of Alloys and Compounds. – 2016. – V.682. – P. 543–551. IF 3.133, Q1.
21	Laser induced SnS₂-SnS phase transition and surface modification in SnS₂ thin films / Kosyak, A. Voznyi, P. Onufrijevs, L. Grase, J. Vecstaudža, A. Opanasyuk, A. Medvids, G. Mezinskis / Journal of Alloys and Compounds. – 2016. – V. 688. – P. 130–139. IF 3.014, Q1.
22	Substructural characteristics and anisotropic peak broadening in Zn_1-xMn_xTe films determined by a combined methodology based on SEM, HRTEM, XRD and HRXRD / C. Martinez-Tomas, O. Klymov, S. Agouran, D. Kurbatov, A. Opanasyuk, V. Muñoz-Sanjosé // Metallurgical and materials transactions A. – 2016. – 47, № 12. – Р. 6645–6654. IF 1.749, Q1.
23	Plasmonic Effects in Tin Disulfide Nanostructured Thin Films Obtained by the Close-Spaced Vacuum Sublimation / M.О. Stetsenko, A. Voznyi, V.V. Kosyak, S.P. Rudenko, L.S. Maksimenko, B.K. Serdega, A.S. Opanasyuk // Plasmonics. – 2017. – V.12(4). – Р.1213-1220. IF 2.19, Q2.
24	The surface morphology, structural properties and chemical composition of Cd_1-xZn_xTe polycrystalline thick films deposited by close spaced vacuum sublimation / V. Znamenshchykov, V.V. Kosyak, A.S. Opanasyuk, A.A. Ponomarev, A.S. Stanislavov, Shpetnyi I.O. // Materials Science in Semiconductor Processing. – 2017. – V.63. – P.64-71. IF 2,359, Q2.
25	Nanostructured ZnO films for potential use in LPG gas sensors / Т.О. Berestok, S. Opanasyuk, V. Latyshev, V.I. Perekrestov, A. Kornyushchenko // Solid State Sciences. – 2017. – V.67. –P.109-113. IF 1,894, Q2.
26	Electrical, structural and optical properties of Cd_1-xZn_xTe thick polycrystalline films / Y.V. Znamenshchykov, V.V. Kosyak, O.K. Kononov, I.O. Shpetnyi, V. Grebinaha, P.M. Fochuk, A.S. Opanasyuk // Vacuum. – 2018. – V.149. – P.270-278. IF=1.530, Q2.
27	Photoluminescence of high optical quality CdS:Dy thin films deposited by close-spaced vacuum sublimation / Yu.S.Yeromenko, Yu.P.Gnatenko, A.S. Opanasyuk, D.I. Kurbatov, P.M. Bukivskij, M.S. Furier, Kuznetsov V. // Journal of Luminescence. – 2018. – V.197. – P. 343–348. IF=2.686, Q2.
28	Formation of SnS phase obtained by thermal vacuum annealing of SnS₂ thin films and its application in solar cells / A. Voznyi, V. Kosyak, L. Grase, J. Vecstaudža, P. Onufrijevs, Yu.Yeromenko, A. Medvid, A. Opanasyuk // Materials Science in Semiconductor Processing. – 2018. – V. 79. – P. 32–39. IF = 2.359, Q2.
29	The influence of optical and recombination losses on the efficiency of thin-film solar cells with a copper oxide absorber layer / O.V. Diachenko, O.A. Dobrozhan, A.S. Opanasyuk, M.M. Ivashchenko, T.O. Protasova, D.I. Kurbatov, A. Čerškusc // Superlattices and Microstructures. – 2018. – V.122. – P. 476-485. IF=2.099, Q2.
30	Morphological, structural and optical properties of Mg-doped ZnO nanocrystals synthesized using polyol process / O. Dobrozhan, O. Diachenko, M. Kolesnyk, A. Stepanenko, S. Vorobiov, P. Baláž, S. Plotnikov, A. Opanasyuk // Materials Science in Semiconductor Processing. – 2019. – V.102, (1). – Р. 104595. IF 3.927, Q2.
31	Structure, substructure and chemical composition of ZnO nanocrystals and films deposited onto flexible substrates / О. Dobrozhan, І. Shelest, А. Stepanenko, D. Kurbatov, M. Ermakov, A. Čerškus, S. Plotnikov, А. Opanasyuk // Materials Science in Semiconductor Processing. – 2020. – V.108. – P. 104879. IF 3.085, Q2.
32	Structural properties and chemical composition of ZnO films deposited onto flexible substrates by spraying polyol mediated nanoinks / О. Dobrozhan, S. Vorobiov, D. Kurbatov, М. Baláž, М. Kolesnyk, О. Diachenko, V. Komanicky, А. Opanasyuk // Superlattices and Microstructures. – 2020. – V. 140. – P. 106455. IF= 2.12, Q2.
33	Heterojunction solar cells based on SnS thin films deposited by close-spaced sublimation technique / V. Kosyak, Yu. Yeromenko, J. Keller, A. Bērziņa, A. Shamardin, I. Iatsunsky, I. Shpetnyi, S. Plotnikov, A. Opanasyuk // Thin Solid Films. – 2020. – V. 709. – P. 138153. IF 2.030, Q2.
34	Morphological, structural, microstructural, chemical properties of nanostructured Cu₂ZnSnS₄ flexible thin films obtained by ink-jet printing of polyol-mediated nanocrystals / О. Dobrozhan, М. Baláž, P. Baláž, S. Vorobiov, A. Opanasyuk // Journal of Alloys and Compounds. – 2020. – V. 842, (25). – Р.155883. IF 4.650, Q1.
35	Structural, microstructural, chemical, and optical properties of NiO nanocrystals and films obtained by 3D printing / S. Kakherskyi, R. Pshenychnyi, О. Dobrozhan, A. Opanasyuk, Ja.G. Vaziev, Yu.P. Gnatenko, A.P. Bukivskii, P.M. Bukivskii // Applied Physics A. Materials Science & Processing. – 2021. – 127(9). IF 2.584, Q2.
36	Photoluminescence of CdTe thin films doped with Yb / Yu.P. Gnatenko, P.M. Bukivskij, R.V. Gamernyk, A.P. Bukivskii, M.S. Furyer, M.M. Kolesnik, D.I. Kurbatov, A.S. Opanasyuk // Journal of Luminescence. – 2021. – V. 237. – P.118208. IF 3.280, Q2.
37	Study of structural and optical properties of CdTe:Yb thin films / Yu.P. Gnatenko, P.M. Bukivskij, R.V. Gamernyk, A.P. Bukivskii, M.S. Furyer, M.M. Kolesnik, D.I. Kurbatov, A.S. Opanasyuk // Physica B: Physics of Condensed Matter. – 2021. – V. 627. – P. 413529. IF 1.902, Q2.
38	Structural and Optical Properties of CuO Thin Films Synthesized Using Spray Pyrolysis Method / O. Diachenko, J. Kováč, O. Dobrozhan, P. Novák, Jar. Kováč, J. Skriniarova, A. Opanasyuk // Coatings. – 2021. – V.11(11). – P.1392. IF 2.881, Q2.
39	Study of structural and optical properties of CdTe:Yb thin films / Yu.P.Gnatenko, P.M.Bukivskij, R.V.Gamernyk, A.P.Bukivskii, M.S. Furyer, M.M. Kolesnik, D.I. Kurbatov, A.S. Opanasyuk // Physica B: Physics of Condensed Matter. – 2022. – V. 627. – P. 413529. IF:2.988, Q2.

PATENTS

1	Automated device for applying films of semiconductors and their solid solutions using a vacuum-free method / O. V. Dyachenko, A. S. Opanasyuk, D. I. Kurbatov. // Utility model patent No. 114980. Application u 2016 10797 dated 03/27/2017.
2	The method of obtaining MgO layers by the spray-pyrolysis method / O. V. Dyachenko, A. S. Opanasyuk, D. I. Kurbatov. / Utility model patent No. 113142. Application u 2016 08112 dated 10.01.2017.
3	The method of applying polycrystalline films of multicomponent compounds (Cu₂(M^II)(M^IV)(S, Se)₄ (M^II: Mn, Fe, Co, Ni, Zn, Cd, Hg; M^IV: Si, Ge, Sn) by the pulsating spray method -pyrolysis / O. A. Dobrozhan, A. S. Opanasyuk, D. I. Kurbatov // Utility model patent No. 115891. Application u 2016 12667 dated 04/25/2017.
4	The method of obtaining n-SnS₂/p-SnS thin-film heterojunction structures by laser irradiation of SnS₂ source material / A.A. Vozniy, V.V. Kosyak, A.S. Opanasyuk. // Utility model patent No. 116965. Application u 2016 13358 dated 06/12/2017.
5	The method of treatment of purulent wounds with silver nanoparticles in the conditions of ultrasonic cavitation / Myronov P.F., Bugayov V.I., Pogorelov M.V., Golubnycha V.M., Opanasyuk A.S. Utility Model Patent No. 139132. Application u201905464 dated 12/26/2019.
6	The method of creating nanocrystals of the semiconductor compound Cu₂ZnSnSe₄ / Pshenichnyi R.M., Opanasyuk A.S., Dobrozhan O.A., Kaherskyi S.I., Vorozhtsov D.O., Kurbatov D.I. Utility model patent No. 147623. Application u 2020 08217 dated 05/27/2021

MONOGRAPHS:

№	Назва	Посилання
1	Injection and optical spectroscopy of localized states in II-VI semiconductor films / D.Kurbatov, A. Opanasyuk, H. Khlyap // Advanced Aspects of Spectroscopy. – Edited by Muhammad Akhyar Farrukh / InTech Published. – 538 p.	<>
2	Nanostructures and Films Based On Classical Wide Gap Semiconductors for Photovoltaic Applications // Kurbatov D., Opanasyuk A., Khlyap H. / Nova Publisher New York, 2014. ISBN: 978-1-62948-763-2	<>
3	Nanostructured ZnO, Cu₂ZnSnS₄, Cd_1-xZn_xTe Thin Films Obtained by Spray Pyrolysis Method / O.A. Dobrozhan, D.I. Kurbatov, P S. Danilchenko, A.S. Opanasyuk. – InTech, Published, «Semiconductors – Growth and Characterization» book edited by Rosalinda Inguanta and Carmelo Sunseri, ISBN 978-953-51-3884-6, Print ISBN 978-953-51-3883-9, Published: March 7, 2018 under CC BY 3.0 license.	<>

MAIN EDUCATIONAL AND METHODOLOGICAL WORKS BY THE PROFILE OF THE DEPARTMENT

TEXTBOOKS:

№	Назва	Посилання
1	Kobyakov O.M., Opanasyuk A.S., Brazhnyk I.E., Lyubiviy, O.A. Solid State Electronics. Microcircuitry: a synopsis of lectures for students. 6.050802 “Electronic devices and systems”, 6.050801 “Micro- and nanoelectronics” of all forms of education. Electronic version. café Electronics and computer technology – Sumy: Sumy State University, 2015. – 109 p.	<>
2	Kshnyakin V.S., Opanasyuk A.S., Dyadyura K.O. Fundamentals of physical materials science. Study guide: in two parts. – Sumy: Sumy State University, 2015 – 466 p.	<>
3	Kshniakin V.S., Mishchenko B.A., Opanasyuk A.S. Concepts of modern natural science: study guide: in three parts. – Sumy: Publishing House of Sumy State University, 2010. – 133 p.	<>
4	Ignatenko V.M., Nefedchenko V.F. Opanasyuk A.S. Guide to practical classes in physics: Study guide: In three parts. – Sumy: Publishing House of Sumy State University, 2008. – 545 p.	<>
5	Opanasyuk A.S., Mishchenko B.A. A collection of problems for control works and testing in the discipline “General Physics” for teachers and students of the full-time and part-time engineering faculty. Parts 1-3. – Sumy: Publishing House of Sumy State University, 2006.- 473 p.	<>
6	Opanasyuk A.S. Modern physical picture of the world. Micro, macro and mega worlds. Study guide for students of all majors of full-time education. Parts 1, 2. – Sumy: Publishing House of Sumy State University, 2005. – 223 p.	<> <>