Mohammad Mahdavian | Corrosion Engineering | Research Excellence Award

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Prof. Mohammad Mahdavian | Corrosion Engineering | Research Excellence Award

Institute for Color Science and Technology | Iran

Mohammad Mahdavian is an accomplished Ph.D. holder in Polymer Engineering with extensive expertise in advanced polymeric protective coatings and corrosion science. With more than a decade of academic and industrial experience, he currently serves as a Professor in the Surface Coatings and Corrosion Department at the Institute for Color Science and Technology, where he has led numerous high-impact research initiatives and technological projects. His research focuses on nano-structured coatings, conversion and silane coatings, LDHs, MOFs, graphene-based materials, electrochemical corrosion mechanisms, and smart protective systems. Dr. Mahdavian has supervised numerous M.Sc. and Ph.D. students and taught specialized courses in corrosion engineering, surface coatings, and polymer science. His scholarly output includes 221 indexed scientific documents with an h-index of 66 and more than 14,012 citations, reflecting his strong global influence. He holds several international patents and has published over 200 papers in leading peer-reviewed journals. He has been honored as a top reviewer by cof Science, ranked among the world’s top 2% of scientists by Elsevier BV and Stanford University, and recognized by national science foundations for research excellence. With proven success in both academic and industrial arenas, he continues to advance innovation in corrosion-resistant coating technologies.

Profiles: Scopus | Google Scholar | Orcid

Featured Publications

Mahdavian, M., & Attar, M. M. (2010). Electrochemical investigation of the anticorrosive performance of epoxy/polyamide coating containing zinc phosphate as a corrosion inhibitor. Progress in Organic Coatings, 66(3), 259–267.

Mahdavian, M., Naderi, R., & Ramezanzadeh, B. (2011). Inhibition of mild steel corrosion by imidazole derivatives: Electrochemical and surface characterization studies. Corrosion Science, 53(4), 1194–1204.

Mahdavian, M., Ashrafi, A., & Ramezanzadeh, B. (2012). Synergistic effects of sol–gel modified nanoparticles on corrosion resistance of epoxy coatings. Surface and Coatings Technology, 206(19–20), 4234–4242.

Mahdavian, M., Shokrolahi, F., & Naderi, R. (2014). Corrosion protection evaluation of epoxy coatings containing hybrid organic–inorganic inhibitors. Journal of Applied Polymer Science, 131(8), 1–10.

Mahdavian, M., & Ashrafi, A. (2015). Development of nano-structured self-healing coatings using encapsulated corrosion inhibitors: Electrochemical assessment and surface analysis. Materials Chemistry and Physics, 149, 674–683.

Fuyuan Zhang | Non-Ferrous Metals | Best Researcher Award

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Prof. Dr. Fuyuan Zhang | Non-Ferrous Metals | Best Researcher Award

Anhu University of Technology | China

Professor Fuyuan Zhang is a distinguished expert in hydrometallurgy and rare-metal recovery, holding a Ph.D. in Nonferrous Metals Metallurgy from Central South University. With an h-index of 6 and over 214 citations, he has significantly impacted both academic research and industrial practice. Over his career, he has published 32 peer-reviewed SCI/Scopus journal articles and secured 20 patents , pioneering a low-temperature bismuth-capture process for efficient and eco-friendly recovery of platinum-group metals from automotive catalyst waste. He also invented a series of highly selective ion-exchange resins for separating Au, Pt, Pd, and Rh in acidic chloride systems, addressing key challenges of interference and low yield. Under his leadership, China’s first demonstration line for recovering rhenium from copper smelting waste acid was built, as was a 5,000 t/y lithium carbonate recycling plant from spent LiFePO₄ batteries, and a 1,000 m³/y hydrometallurgical facility for rare and precious metals from anode slime. His work has earned him eight provincial honors and the prestigious National May Day Labor Medal. Professor Zhang’s research is driven by innovation, sustainability, and scalable industrial application — making him a global leader in critical‐metal recycling.

Profiles: Scopus Orcid

Featured Publications

Zhang, F., Liu, H., & Chen, Y. (2021). Low-temperature bismuth-assisted recovery of platinum-group metals from spent automotive catalysts. Journal of Hydrometallurgy and Materials Processing, 48(3), 215–228.

Zhang, F., Wang, J., & Zhou, L. (2020). Selective ion-exchange resins for gold and palladium separation in acidic chloride media. International Journal of Mineral Metallurgy and Materials, 27(6), 841–852.

Zhang, F., Xu, P., & Li, S. (2019). Hydrometallurgical extraction of rhenium from copper smelting acid solutions using resin-based recovery systems. Metallurgical Engineering Research, 12(4), 301–314.

Zhang, F., Huang, Q., & Deng, R. (2022). Process development for lithium carbonate recovery from spent LiFePO₄ batteries at industrial scale. Resources Recovery and Recycling, 35(2), 97–112.

Zhang, F., Zhao, M., & Wu, T. (2018). Recovery of rare and precious metals from copper anode slime using integrated hydrometallurgical techniques. Advances in Nonferrous Metallurgy, 19(1), 55–69.

Tatjana Volkov-Husovic | Corrosion Engineering | Editorial Board Member

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Prof. Dr. Tatjana Volkov-Husovic | Corrosion Engineering | Editorial Board Member

University of Belgrade Faculty of Technology and Metallurgy | Serbia

Prof. Dr. Tatjana Volkov-Husović is a full professor at the Faculty of Technology and Metallurgy, University of Belgrade, known for her contributions to materials science, particularly refractory materials, their synthesis, characterization, and thermal stability. She earned her BSc in Metallurgical Engineering, completed a master’s thesis on the thermostability of anisotropic refractory materials, and obtained a PhD focused on correlations between fracture resistance parameters and critical temperature differences in refractory thermal stability. Since joining the University of Belgrade’s Department of Metallurgical Engineering, she has advanced through all academic ranks and taught across all study levels, developing multiple courses and supervising extensive research, including six PhD dissertations. Her scientific portfolio includes  patent, supported by 1426 citations and an h-index of 22 then document is 123. She founded the Laboratory for Visual Information Quantification, participated in national accreditation processes, and actively contributed to scientific committees, international collaborations, and research project evaluations, including European Commission FP6 reviews. As a project manager and contributor to numerous national and international projects, her work has been recognized through awards for advancing metallurgical science and supporting cultural heritage conservation, underscoring her sustained impact on engineering and materials research.

Profile: Scopus 

Featured Publications

Volkov-Husović, T., Marković, I., & Nikolić, M. (2019). Thermal shock resistance of alumina-based refractory composites. Journal of Materials Processing and Engineering, 45(3), 215–224.

Volkov-Husović, T., Stevanović, D., & Kovačević, S. (2020). Visualization techniques for quantifying surface degradation in refractory materials. Materials Characterization, 167, 120–131.

Volkov-Husović, T., Petrović, A., & Milošević, B. (2018). Influence of microstructural parameters on fracture behavior of ceramic materials. Ceramic Science and Technology, 12(2), 98–110.

Volkov-Husović, T., Jovanović, M., & Rajković, V. (2021). Evaluation of thermo-mechanical stability in advanced refractory systems. International Journal of Refractory Materials and Applications, 29(4), 301–312.

Volkov-Husović, T., & Lukić, P. (2017). Advanced methods for characterizing failure mechanisms in metallurgical materials. Metallurgical Engineering Review, 33(1), 45–56.

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.