Hussein Fawzi Hussein | Metallurgical Recycling | Research Excellence Award

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Dr. Hussein Fawzi Hussein | Metallurgical Recycling | Research Excellence Award

Scientific Resaerch Commission | Iraq

Dr. Hussein Fawzi Hussein is a materials and metallurgical engineer and researcher affiliated with the Scientific Research Commission, Baghdad, Iraq, where he has served since 2011 as Chief Engineer at the Industrial Applications and Materials Technology Research Center, contributing to applied research and national scientific development. He also holds a leadership role as Director of Metals and Alloys at the Ministry of Higher Education and Scientific Research. Dr. Hussein earned his Ph.D. in Materials Science and Engineering from POLITEHNICA Bucharest National University of Science and Technology, Romania, in 2019, following advanced academic and research training in metallurgy and materials engineering. His research interests focus on aluminum and steel alloys, welding and microstructural analysis, renewable energy systems, solar photovoltaic performance, heat exchangers, nanomaterials, and surface thermal analysis under real climatic conditions. He has published 8 scientific documents indexed in Scopus and Web of Science, receiving 17 citations with an h-index of 2, reflecting growing international visibility. Dr. Hussein serves as a reviewer for the International Journal of Renewable Energy Research, demonstrating academic recognition and service to the scientific community. His scholarly contributions bridge materials science and renewable energy applications, supporting sustainable technologies and industrial innovation, and positioning him as an active contributor to interdisciplinary research and applied engineering advancement.

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Featured Publications

Dumitru Mitrica | Alloy Design | Research Excellence Award

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Dr. Dumitru Mitrica | Alloy Design | Research Excellence Award

Research and Development Institute for Nonferrous and Rare Metals – IMNR | Romania

Dr. Dumitru Mitrica is a seasoned materials scientist and research leader with extensive experience in non-ferrous alloys, composite materials, and advanced alloy design. He holds a PhD in Materials Engineering from the Faculty of Materials Science and Engineering, University “Politehnica” of Bucharest, with earlier bachelor and master studies in the same faculty, and additional master-level training at the University of Arizona, USA. Over decades at the National R&D Institute for Nonferrous and Rare Metals (Bucharest), he has progressed from research assistant to Senior Researcher (grade I), leading numerous national and European research projects. His technical expertise spans nonferrous alloy preparation and processing, high-entropy alloys, composites, rapid solidification and induction melting, thermodynamic assessment, modelling, experimental processing and characterization. Dr. Mitrica has authored  papers granted patents plus  patent applications. He has directed major projects including the international M-Era.Net project COMPTRANS, national complex programs such as HEAPROTECT and multiple PNCDI3 and national innovation calls. A member of European materials research networks, his work has been recognized with awards and broad international collaboration. Dr. Mitrica remains committed to bridging theoretical materials science and practical industrial applications, driving innovation in alloy design and sustainable materials engineering.

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Featured Publications

Mitrica, D., Mosinoiu, L.-F., Sobetkii, A., Caramarin, S., Matei, A.-C., Cursaru, L.-M., Tudor, I.-A., Serban, B.-A., Ghita, M., Vitan, N., Romanitan, C., Olaret, E., Postolnyi, B., & Pogrebnjak, A. (2025). Selected high-entropy alloys for thin film deposition, with improved mechanical and corrosion properties. Scientific Reports, 15, 37712.

Serban, B.-A., Olaru, M.-T., Badea, I.-C., Mitrica, D., Burada, M., Anasiei, I., Ghita, M., Tudor, A.-I., Matei, C.-A., Popescu, A.-M. J., Constantin, V., Branzoi, F., & Dobrescu, C. (2022). Non-aqueous electrodeposition and characterization of AlCrCuFeNi high-entropy alloy thin films. Materials, 15(17), 6007.

Soare, V., Mitrica, D., Constantin, I., Popescu, G., Csaki, I., Tarcolea, M., & Carcea, I. (2014). The mechanical and corrosion behaviors of as-cast and re-melted AlCrCuFeMnNi multi-component high-entropy alloy. Metallurgical and Materials Transactions A.

Anasiei, I., Badea, I.-C., Mitrica, D., Ghita, M., & others. (2023). Characterization of complex concentrated alloys and their suitability for brake disc materials. Materials, 16(14), 5067.

Mosinoiu, L.-F., Mitrica, D., & collaborators. (2024). High-entropy alloys and methods for synthesis. Conference Proceedings.

Alexander Shmatov | Materials Science | Best Researcher Award

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Prof. Alexander Shmatov | Materials Science | Best Researcher Award

Belarusian State Technological University | Belarus

Alexander Shmatov is a distinguished materials scientist and researcher, currently serving as Chief Researcher at Belarusian State Technological University (BSTU) and Professor at Wuhan Textile University . He holds a Ph.D. in Materials Science , D.Sc. in Materials Science and Mechanical Engineering , and has been recognized as a Professor and Academician of the Russian Academy of Natural Sciences . With more than peer-reviewed publications and  patents, his research has received significant global attention, reflected in an h-index of 2 and over 8 citations and documentation is 13. Professor Shmatov has led  national and international research projects and contributed  industrial collaborations, focusing on heat treatment, thermo-chemical treatment, and nanotechnology for material strengthening. His work emphasizes the development of efficient, economical, and environmentally friendly methods for enhancing steels, hard alloys, and diamond-based tools. He has authored four monographs and two tutorials, and actively participated in editorial and scientific committees, including the International Scientific and Technical Conference “TOP.” His contributions have led to practical industrial applications in enterprises, generating significant economic impact. Recognized with multiple awards for research excellence, Shmatov continues to advance material science through innovative technologies, process optimization, and international collaborations, reinforcing his role as a global leader in materials engineering.

Profiles: Scopus | Orcid

Featured Publications

Shmatov, A., & Puteri, N. (2025). Air-sintered copper-aluminum alloy inner electrodes. Journal of Materials Science: Materials in Electronics, 36(14), 1–10.

Shmatov, A., Chien, C. F., & Ku, C. T. (2025). Studies on CuNi alloy with zinc protective layer sintered in air. ES Manufacturing Materials, 2025(June), 1–8.

Shmatov, A., Lee, W. H., & Kuo, T. C. (2024). Study on the fabrication of high-quality hafnium oxide thin films using spatial rotated atomic layer deposition and supercritical fluids treatment. Journal of Vacuum Science & Technology A, 42, 062409.

Shmatov, A., Divya, P., & Kuo, T. C. (2024). A study on environmentally friendly electroless-plating. Journal for Electrochemistry and Plating Technology, 2024, 1–8.

Shmatov, A., Lee, W. H., & Yu, Y. W. (2023). Increasing the conductivity of sintered powder Al–Cu material due to electroplating of aluminium particles with copper. Metal Science and Heat Treatment, 65(5–6), 1–7.

Jing Li | Metallurgical Process Optimization | Technology Transfer Award

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Ms. Jing Li | Metallurgical Process Optimization | Technology Transfer Award

Kunming University of Science and Technology | China

Professor Jing Li is a distinguished researcher and doctoral supervisor at Kunming University of Science and Technology, recognized under the “Ten-Thousand Talents Program” for Young Top Talents of Yunnan Province. She earned her Ph.D. in Metallurgical Engineering and has accumulated extensive experience in advanced metallurgical process innovation, focusing on the application of microwave and ultrasonic external field enhancement technologies in metallurgy. Her research spans fundamental theory, equipment development, process optimization, and industrial application for sustainable metallurgical engineering. Professor Li has led and completed major research projects funded by the National Natural Science Foundation of China and Yunnan Provincial key programs, in collaboration with industry partners. She has authored more than  SCI/EI-indexed papers and authorized invention patents.  Professor Li also serves as a corresponding reviewer for international journals such as Water Research, Hydrometallurgy, and Environmental Science and Pollution Research. Her scientific contributions have advanced green metallurgy and resource recovery technologies. Through her leadership and innovation, she continues to promote technology transfer and sustainable industrial applications in metallurgical science.

Profile:  Orcid

Featured Publications

Li, J., Zhang, Y., & Chen, X. (2025). Effect of microwave-assisted drying on temperature control and efficiency in metallurgical materials. Journal of the Minerals, Metals & Materials Society, 77(5), 1452–1463.

Li, J., Wang, H., & Liu, P. (2025). Ultrasonic field-enhanced purification in zinc smelting: Process optimization and impurity removal. Applied Sciences, 15(10), 5673.

Li, J., Zhao, Q., & Hu, S. (2024). External field-enhanced metallurgy for green metal recovery from complex resources. Hydrometallurgy, 221, 105767.

Li, J., Xu, L., & Zhou, M. (2023). Coupled microwave-ultrasonic processes for resource recycling and environmental protection in metallurgical waste treatment. Chemical Engineering and Processing: Process Intensification, 110266.

Li, J., Chen, X., & Yang, Z. (2023). Enhanced purification mechanisms in special field metallurgy using ultrasonic-assisted leaching. Canadian Journal of Chemical Engineering, 101(3), 575–588.