Andrei Kharchanka | Condensed Matter Physics | Best Researcher Award

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Dr. Andrei Kharchanka | Condensed Matter Physics | Best Researcher Award

Institute for Nuclear Problems, Belarusian State University | Belarus

Dr. Andrei Kharchanka is a distinguished physicist and materials scientist recognized for his significant contributions to the field of Condensed Matter Physics. His research focuses on the magnetotransport, electronic, and optical properties of nanostructured materials, particularly those based on carbon and graphene. Dr. Kharchanka’s scientific endeavors encompass the synthesis and modification of thin carbon layers and polymer composites through advanced methods such as ion implantation, CVD growth, and irradiation techniques, enabling controlled manipulation of charge carriers and intrinsic magnetic defects. His studies have deepened the understanding of magnetic interactions, electron transport phenomena, and the functional behavior of nanomaterials, advancing the design of materials for spintronics, nanoelectronics, and photonic applications. He has collaborated extensively with international research institutions, including the Joint Institute for Nuclear Research (Russia), contributing to multidisciplinary investigations on nanocomposites and magnetically active materials. With 25 publications indexed in Scopus, his work has been cited 82 times across 66 documents, reflecting an h-index of 5. His Google Scholar profile also highlights consistent academic impact through high-quality publications and collaborations in nanoscience and applied physics. Dr. Kharchanka’s recent research explores the correlation between structural features and magnetic behavior in metal oxide nanoparticles, and the influence of humidity and environmental factors on the electrical performance of diamond-like carbon coatings. His contributions have positioned him as an innovative researcher whose findings bridge fundamental material science with practical technological applications, making him a deserving candidate for the Best Researcher Award in the field of Condensed Matter Physics.

Publication Profile

Scopus | Orcid

Featured Publications

  • Kharchanka, A. A., Fedotov, A. K., & Fedotova, J. A. (2025). Carrier transport and induced magnetism in nanostructured carbon-based material manufactured by PECVD method. Next Materials, 101081.

  • Zur, I. A., Fedotova, J. A., Fedotov, A. S., Shmanay, Y. Y., Fedotov, A. K., Kharchanka, A. A., Gorbachuk, N. I., Ermakova, E. A., & Movchan, S. A. (2025). Influence of humidity on the electrophysical properties and charge transfer mechanism in nanoscale diamond-like carbon coatings. Carbon, 120100.

  • Luu Huu, N., Linh, P. H., Fedotova, J. A., Nhung, N. H., Kharchanka, A. A., Degtyarik, M. M., Mitskevich, Y. D., Thi Huong, T., Thi Ngoc Anh, N., & Son, H. A. (2025). A comprehensive evaluation of the correlation between structure and magnetic properties of Gd-substituted Fe3O4 nanoparticles. Advances in Natural Sciences: Nanoscience and Nanotechnology, 2043–6262.

  • Haiduk, Y. S., Petrova, E. G., Fedotova, J. A., Lapchuk, N. M., Kharchanka, A. A., Korobko, E. V., Usenka, A. E., & Pankov, V. V. (2025). Ferrites of cobalt and cobalt-zinc for magnetorheological materials: Preparation and properties. Next Materials, 100652.

  • Zur, I. A., Fedotova, J. A., Fedotov, A. S., Shmanay, Y. Y., Fedotov, A. K., Kharchanka, A. A., Gorbachuk, N. I., Ermakova, E. A., & Movchan, S. A. (2025). Corrigendum to “Influence of humidity on the electrophysical properties and charge transfer mechanism in nanoscale diamond-like carbon coatings”. Carbon, 120246.