Ihor Kukharskyy

Position: Associate Professor, Physical and Biomedical Electronics Department

Scientific degree: Candidate of Physical and Mathematical Sciences

Academic status: Associate Professor

Phone (office): (032) 239-47-14

Email: ihor.kukharskyy@lnu.edu.ua

Google Scholar profile: scholar.google.com

ORCID profile: orcid.org

Scopus profile: www.scopus.com

Web of Science (Publons) profile: www.webofscience.com

Research interests

Optical and luminescent properties of inorganic compounds

Courses

Publications

  • Bondar V., Kucharsky I., Simkiv B., Axelrud L., Davydov V., Dubov Yu., Popovich S. Low-temperature synthesis of gallium nitride thin films using reactive RF-magnetron sputtering // Phys. Status Solidy(a), – 1999– Vol.176– P.329-332.
  • Bondar V., Axelrud L., Vasyliv M., Grytsiv M., Dubov Yu., Popovich S., Davydov V., Kucharsky I., Lutsyk N. , Crystallization of nanostructure thin films based on gallium containing oxides for luminescent application // Functional materials – 1999.– 6, №3.– P.510–512.
  • V. Bondar, T. Felter, C. Hunt, I. Kucharsky, A. Chakhovskoi. Synthesis and Luminescent Properties of GaN and GaN-Mn Blue Nanocrystalline Thin-Film Phosphor for FED // Mat. Res. Soc. Symp. Proc. – 2001. – Vol. 685Е. – P.D17.1.1-D17.1.6.
  • V. Bondar, I. Kukharsky, B. Padlyak, V. Davydov, B. Simkiv, M. Grinberg, B. Kukliński. Growth, structure and spectroscopic characterization of the Mn-doped gan thin films // Proceeding of SPIE. – 2001. – Vol.4413. – P.50-54.
  • Bordun O.M., Kukharsky I.Yo., Antonyuk V.G., Dmytruk V.M. Luminescence of thin films of bismuth and lead complex oxide compounds // Radiation Measurements, – 2007. – V 42 – P. 569–571.
  • O. Bordun, I. Bordun, I. Kukharskiy. Thermally stimulated and tunnel luminescence in Y2O3 and Sc2O3 ceramics // Electronics and information technologies – 2011. – Issue 1. – P. 18–29.
  • O. M. Bordun, I. Yo. Kukharskyy, V. G. Bihday. Effect of the synthesis and annealing atmosphere composition on the fundamental absorption edge of ZnGa2O4 thin films // J. Appl. Spectrosc. – 2013. – V. 79, №6. – 997-1001.
  • O. M. Bordun, I. O. Bordun, I. Yo. Kukharskyy. Dispersion and edge absorption of  Y2O3 thin films obtained by different methods // J. Appl. Spectrosc. – 2013. – V. 79, №6. – 982-987.
  • O. M. Bordun, V. G. Bihday, I. Yo. Kukharskyy. Influence of Annealing Conditions on the Luminescence and Photoelectric Properties of Pure and Mn2+-Activated ZnGa2O4 Thin Films // J. Appl. Spectrosc. – 2013. – V. 80,  №5. – 721-725.
  • O. M. Bordun, V. G. Bihday, I. Yo. Kukharskyy. Photo- and Cathodoluminescence of ZnGa2O4:Cr Thin Films // J. Appl. Spectrosc. – 2014. – V. 81, №1. – 43-48.
  • O. M. Bordun, I. Yo. Kukharskyy, B. O. Bordun, V. B. Lushchanets. Dispersion of Refractive Index of β-Ga2O3 Thin Films // J. Appl. Spectrosc. – 2014. – V. 81, №5. – 771-775.
  • O. M. Bordun, I. O. Bordun, I. Yo. Kukharskyy. Effect of Preparation Conditions on the Fundamental Absorption Edge of Y2O3 Thin Films // J. Appl. Spectrosc. – 2015. – V. 82,  №3. – 390-395.
  • O. M. Bordun, I. Yo. Kukharskyy, I. I. Medvid. Dispersion Properties of (Y0.06Ga0.94)2O3 Thin Films //J. Appl. Spectrosc. – 2016. – V. 83, №1. – 141-144.
  • O.M. Bordun, I.O. Bordun, I.Yo. Kukharskyy, I.I. Polovynko. Influence of Obtainment Conditions and Excitation Into Spectral and Kinetic Characteristics of Cathodoluminescence in Y2O3:Eu Thin Films // Physics and Chemistry of Solid State – 2017. – V.18, №1. – P. 84–88.
  • O.M. Bordun, I.Yo. Kukharskyy, I.I. Medvid, Zh.Ya. Tsapovska. Edge Absorption of (Y0.06Ga0.94)2O3 Thin Films // Physics and Chemistry of Solid State – 2017. – V.18, №1. – P. 89–93.
  • O.M. Bordun, B.O. Bordun, I.I. Medvid and I.Yo. Kukharskyy. Microstructure and Thermally Stimulated Luminescence of β-Ga2O3 Thin Films // Acta Physica Polonica A – 2018. – V. 133, No. 4. – 910–913. DOI: 10.12693/APhysPolA.133.910
  • I.O. Bordun, O.M. Bordun, I.Yo. Kukharskyy and Zh.Ya. Tsapovska. Structure and Cathodoluminescence of Y2O3:Eu Thin Films obtained at Different Conditions // Acta Physica Polonica A – 2018. – V. 133,  No. 4. – 914–917.  DOI: 10.12693/APhysPolA.133.914
  • O. M. Bordun, I. O. Bordun, I. I. Kukharskyy, I. I. Medvid, Zh. Ia. Tsapovska, and D. S. Leonov. Features of Deposition and Formation of the Structure of Y2O3:Eu Thin Films Obtained by Radio-Frequency Sputtering // Nanosistemi, Nanomateriali, Nanotehnologii – 2019. – V. 17, № 2. – P. 353–360.
  • O.M. Bordun, B.O. Bordun, I.Yo. Kukharskyy, I.I. Medvid, I.S. Zvizlo, and D.S. Leonov. Influence of the Obtaining Conditions on the Photoconductivity of Thin β-Ga2O3 Films // Nanosistemi, Nanomateriali, Nanotehnologii – 2019. – V.17, № 3. – P.483–490.
  • O. M. Bordun, I. O. Bordun, I. M. Kofliuk, I. Yo.Kukharskyy, I.I.Medvid, О. Ya. Mylyo, and D. S. Leonov. Synthesis and Structure of Y2O3:Eu Thin Films // Nanosistemi, Nanomateriali, Nanotehnologii – 2019. – V.17, № 4. – P.711–716.
  • O. M. Bordun, I. O. Bordun, I. M. Kofliuk, I. Yo. Kukharskyy, I. I. Medvid, Zh. Ya. Tsapovska, D. S. Leonov. Morphology of Thin Films Y2O3:Eu Obtained by Different Methods // Nanosistemi, Nanomateriali, Nanotehnologii – 2020. – V.18, № 1, pp. 53–58.
  • O. M. Bordun, I. O. Bordun, I. M. Kofliuk, I. Yo. Kukharskyy, I. I. Medvid, Zh. Ya. Tsapovska, D. S. Leonov. Effect of Activator Concentration on the Morphology of Thin Films of Y2O3:Eu Obtained by Radio-Frequency Sputtering // Nanosistemi, Nanomateriali, Nanotehnologii – 2020. – V.18, № 3, pp. 717–725.
  • O. M. Bordun, B. O. Bordun, I. Yo. Kukharskyy, I. I. Medvid. Density of States and Interband Light Absorption in β-Ga2O3 Thin Films // J. Appl. Spectrosc.– 2021.– V.88, №2 – p. 257–260.
  • O. M. Bordun, B. O. Bordun, I. Yo. Kukharskyy, I. I. Medvid, I.I. Polovynko, Zh. Ya. Tsapovska, D. S. Leonov. Surface Morphology of Thin β-Ga2O3 Films Obtained by Radio-Frequency Sputtering // Nanosistemi, Nanomateriali, Nanotehnologii – 2021. – V.19, № 1, pp. 159–165.
  • O. Bordun, B. Bordun, I. Kukharskyy, I. Medvid, Zh. Tsapovska. Influence of the obtaining conditions on the electroconductivity of Ga2O3 thin films // Electronics and information technologies. – 2021. – Issue 16, P. 87–93.
  • O.M. Bordun, B.O. Bordun, I.M. Kofliuk, I.Yo. Kukharskyy, I.I. Medvid Influence of the Composition of the Radio-Frequency Sputtering Atmosphere on the Density of States and Interband Light Absorption in thin Y2O3 Films // J. Appl. Spectrosc. –  2022. – V. 88, №6 – P. 1152–1156.
  • O. M. Bordun, I. O. Bordun, I. M. Kofliuk, I. Yo. Kukharskyy, I. I. Medvid, Zh. Ya. Tsapovska, D. S. Leonov. Surface Morphology of Y2O3:Eu Thin Films at Different Activator Concentrations // Nanosistemi, Nanomateriali, Nanotehnologii – 2022. – V.20, № 1, pp. 91–96.
  • О. М. Bordun, B. О. Bordun, I. Yo. Kukharskyy, I. I. Medvid, D. М. Maksymchuk, Zh. Ya. Tsapovska, D. S. Leonov. Photoconductivity of Thin β-Ga2O3 and β-Ga2O3:Cr3+ Films // Nanosistemi, Nanomateriali, Nanotehnologii – 2023. V. 21, № 1, pp. 49–55.
  • O. M. Bordun, V. G. Bihday, І. Yo. Kukharskyy, І. І. Medvid, І. М. Kofliuk, I. Yu. Khomyshyn, Zh. Ya. Tsapovska, D. S. Leonov Surface Morphology of Thin ZnGa2O4 Films Obtained by Different Methods // Nanosistemi, Nanomateriali, Nanotehnologii – 2023. – V. 21, № 2, pp. 403–411.
  • O. M. Bordun, B. O. Bordun, I. I. Medvid, M. V. Protsak, K. L. Biliak, I. Yo. Kucharskyy, D. M. Maksymchuk, I. M. Kofliuk, D. S. Leonov Surface Morphology of (La0.06Ga0.94)2O3:Eu Thin Films // Nanosistemi, Nanomateriali, Nanotehnologii – 2023. – V. 21, № 3, pp. 593–603.
  • O.M. Bordun, B.O. Bordun, I.Yo. Kukharskyy, D.M. Maksymchuk, I.I. Medvid. Luminescence of Cr-doped β-Ga2O3 thin films // Phys. and Chem. of Solid State –2023. – V. 24, № 3, pp. 490-494.

Biography

In 1990 he graduated from the Faculty of Physics of Ivan Franko Lviv State University (Physics, qualification Physicist. Teacher of Physics.)
1990–1995 – senior laboratory assistant of the Department of General Physics of Ivan Franko LSU.
1995–1998 – graduate student of the Department of General Physics of Ivan Franko LSU.
1999 – 2013 – junior researcher of the NDC, engineer of the 1st category of the Department of General Physics, leading specialist of the Department of Physical and Biomedical Electronics of Ivan Franko Lviv National University.
In 2010 he defended his dissertation “Own centers of luminescence and recombination processes in polymorphic variations of bismuth germanate.” He was awarded the degree of Candidate of Physical and Mathematical Sciences in the specialty of optics, laser physics.
From 2013 to 2016 – Assistant Professor of Physical and Biomedical Electronics, and from 2016 – Associate Professor of the same department.

Teaching materials

  • Bordun O.M., Bigun R.I., Pastyrskyi Y.A., Kukharskyi I.I. Experimental methods of physical and biomedical electronics – Lviv: Ivan Franko National University, 2011. 291 p.

Schedule

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