Biography

Date of Birth:  July 11, 1987

Nationality:     Ukrainian

E-mail: Pkolkovskyy@gmail.com

Key qualifications:

More than 12 years of experience in working as a researcher in the area of synthesis and investigation of new nanomaterials and their application as electrodes components of electrochemical devices. Lecturer, Associate Professor of Medical and Biological Physics in Ivano-Frankivsk National Medical University for English-speaking students, 7 years experience. Ph.D. (2015) in Physics and Chemistry of Surface (Material Science and Nanotechnology) was devoted to research of the influence of synthesis con­di­tions on the structural, morphological characteristics and magnetic micro­struc­ture of fluoride nanodispersed iron and testing synthesized materials as a basis cathode com­po­si­tion of lithium power sources. Expertise in characterizing materials with XRD, XRF, DTA, SEM, BET surface area.

Internship: six-month internship as a researcher in the area of synthesis and investigation of new nanomaterials in the “Emergent Energy Inc” Institute 5310 Beethoven Street Los Angeles, CA 90066, Los Angeles, California, USA

Education:

2019 - 2021 doctoral student at Vasyl Stefanyk Precarpathian National University

2015    Ph.D., Vasyl Stefanyk Precarpathian National University (Ivano-Frankivsk, Ukraine); title "Obtaining, structure and electrochemical properties of fluoride Nanodispersed iron."

2009-2012       Ph.D. student, Vasyl Stefanyk Precarpathian National University (Ivano-Frankivsk, Ukraine)

2004-2009       M.Sc., Vasyl Stefanyk Precarpathian National University (Ivano-Frankivsk, Ukraine)

Languages (Spoken, Read, Written): Ukrainian – native, English – Good

Experience:

Student-researcher of Science & Educational Centre „Nanomaterials in energy accumulation and generation devices” (CREST Project, CRDF/USAID, UKX2-9200-IF-08)

Researcher of National Contact Point of Horizon 2020 in the area “Nanotechnologies, Advanced Materials, Advanced Manufacturing and Processing”

The area of interest includes the synthesis of nanomaterials of transition oxides and materials with the structure of perovskites of manganese La and Sr as well as activated carbon material and their use as components of electrodes of electrochemical devices.

Selected publications:

1. Kolkovska, H. M., Rachiy, B. I., Kolkovskyi, P. I., Yaremiy, I. P., Ivanichok, N. Y., Lisovskiy, R. P., & Ilnytskyi, N. R. Mechanisms of charge accumulation of the electrochemical system LaMnO₃/AC. Physics and Chemistry of Solid State, 22(4), 644-654, 2021.
2. Starchuk, Y., Rachiy, B. I., Budzulyak, I. M., Kolkovskyi, P. I., Ivanichok, N. Y., & Halushchak, M. O. (2021). Electrochemical Properties of Hybrid Supercapacitors Formed Based on Nanoporous Carbon and Nickel Tungstate. Journal of nano- and electronic physics, 13(6), 1 – 5, 2021.
3. N. Ya. Ivanichok, O. M. Ivanichok, B. I. Rachiy, P. I. Kolkovskyi, I. M. Budzulyak, V. O. Kotsyubynsky, V. M. Boychuk, L. Z. Khrushch Effect of the carbonization temperature of plant biomass on the structure, surface condition and electrical conductive properties of carbon nanoporous material Journal of Physical Studies, 25(3) 3801, 2021.
4. Butenko, D. S., Li, S., Kotsyubynsky, V. O., Boychuk, V. M., Dubinko, V. I., Kolkovsky, P. I., ... & Zatovsky, I. V. Palladium nanoparticles embedded in microporous carbon as electrocatalysts for water splitting in alkaline media. International Journal of Hydrogen Energy, 46(41), 21462-21474, 2021.
5. Yaremiy, I. P., Mokhnatskyi, M. L., Kolkovskyi, P. I., Mokhnatska, L. V., Yaremiy, S. I., Kachmar, A. I., & Cherkach, K. P. Promising Cathode Material for Supercapacitors LaFe_0.5Cr_0.5O₃ Perovskite Nanoparticles. Physics and Chemistry of Solid State, 21(4), 635-639, 2020.
6. Kolkovskyi, P. I., Ostafiychuk, B. K., Kolkovskyi, M. I., Ivanichok, N. Y., Sklepova, S. S., & Rachiy, B. I. Mechanisms of charge accumulation in electrochemical systems formed based on of nanoporous carbon and manganese oxide. Physics and Chemistry of Solid State, 21(4), 621-627, 2020.
7. Rachiy, B. I., Starchuk, Y., Kolkovskyy, P. I., Budzulyak, I. M., Yablon, L. S., Kotsyubynsky, V. O., ... & Khemiy, O. M. Accumulation of charge mechanisms in electrochemical systems based on carbon and nickel tungstate. Surface Engineering and Applied Electrochemistry, 56(6), 697-703, 2020.
8. Dolbin, A. V., Dubinko, V. I., Vinnikov, N. A., Esel'son, V. B., Gavrilko, V. G., Basnukaeva, R. M., ... & Kolkovsky, P. I. Low-temperature sorption of hydrogen by porous carbon material containing palladium nanoclusters. Low Temperature Physics, 46(10), 1030-1038, 2020.
9. Budzulyak, I. M., Kolkovskyi, P. I., Rachiy, B. I., Kolkovskyi, M. I., Revo, S. L., Musiy, R. Y., ... & Hrubiak, A. B. Electrical properties of composites based on nanoporous carbon material. Physics and Chemistry of Solid State, 21(3), 409-414, 2020.
10. Ostafiychuk, B. K., Kolkovskyi, M. I., Rachiy, B. I., Kolkovskyi, P. I., Ivanichok, N. Y., & Ilnitsky, R. V. Accumulation charge mechanisms in electrochemical systems formed based on activated carbon and manganese oxide. Physics and Chemistry of Solid State, 21(1), 27-34, 2020.