Sodiq Yusuf | Materials Characterization | Publications Impact Award

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Mr. Sodiq Yusuf | Materials Characterization | Publications Impact Award

University of Idaho | United States

Sodiq Babatunde Yusuf is an environmental and materials scientist with interdisciplinary training in natural resources conservation, environmental science, data science, and microelectronics fabrication. His work integrates sustainability science, green chemistry, and process optimization to advance low-impact materials and manufacturing systems. His research focuses on industrial hemp, lignocellulosic fibers, polymer composites, life cycle assessment, and emission reduction technologies. He has extensive experience in environmental compliance, laboratory safety, and regulatory reporting aligned with OSHA, EPA, and DEQ frameworks, and has received recognition for leadership and innovation in global sustainability initiatives.

Citation Metrics (Google Scholar)

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Featured Publications

Adamu Wahab | Sustainable Metallurgy | Recycling and Circular Materials Award

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Mr. Adamu Wahab | Sustainable Metallurgy | Recycling and Circular Materials Award

Enyan Denkyira Senior High Technical School | Ghana

Adamu Wahab is a construction technology researcher and educator with expertise in sustainable construction materials, building technology, and the integration of artificial intelligence in STEM and TVET education. He holds a Master of Philosophy degree in Construction Technology and a Bachelor of Science degree in Construction Technology Education, with research training focused on the characterization and performance of alternative and eco-friendly construction materials. His professional experience spans secondary and technical education teaching, site supervision in the construction industry, administrative academic support, and vocational training, providing him with strong practical and pedagogical grounding. His research interests include sustainable and circular construction materials, natural fibre composites, low-carbon building materials, construction safety, AI-driven educational tools, and innovation in construction practices. He has authored multiple peer-reviewed journal articles addressing sustainable materials, green skills development, and AI applications in construction and education, and actively contributes as a journal reviewer and editorial team member in materials and civil engineering–related fields. He regularly participates in international conferences, seminars, and professional development workshops. Overall, his work reflects a commitment to advancing sustainable construction practices, enhancing technical education, and supporting innovation through interdisciplinary research and knowledge dissemination.

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Featured Publications

Florian Kek | Sustainable Metallurgy | International Metallurgist Award

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 Mr. Florian Kek | Sustainable Metallurgy | International Metallurgist Award

RHI Magnesita / MIRECO | Austria

Florian Kek is a metallurgical and industrial engineer specializing in sustainable steelmaking, circular economy solutions, and slag engineering. He is currently a PhD researcher in Metallurgy at the University of Leoben, focusing on the dissolution behavior of secondary metallurgical additives in steelmaking slags, while working as Circular Metallurgical Additives and Slag Engineering Specialist in Technical Marketing Europe at RHI Magnesita, Vienna. His professional experience spans more than seven years across technical marketing, business development, product management, and R&D, with hands-on leadership of industrial trials for greener steel production in EAF, BOF, and LF processes. He holds MSc and BSc degrees in Metallurgy from the University of Leoben, complemented by international academic exposure through the EURASMUS Materiales program. His research integrates refractory recycling, circular metallurgical additives, and digital modelling to enhance slag performance and resource efficiency. He is the main author of peer-reviewed and industry-focused publications on green steel and sustainable slag engineering. Current scholarly metrics include an h-index of 4, four scientific and technical documents, and approximately 30 citations. He has received professional recognition through trusted technical leadership roles in European steel plants. His work bridges science and industry, contributing practical pathways toward low-carbon, circular steelmaking.

Citation Metrics

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Citations 30

Documents 3

h-index 4

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Featured Publications

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.

Aichun Dou | Non-Ferrous Metals | Best Researcher Award

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Mr. Aichun Dou | Non-Ferrous Metals | Best Researcher Award

Jiangsu University | China

Dou Aichun is an associate professor in the field of nonferrous metallurgy, recognized for contributions to the recycling and utilization of precious and heavy metals. He holds B.S., M.S., and Ph.D. degrees in Metallurgical Engineering from a leading national institution known for its strong materials and metallurgical science programs. Since completing his doctoral studies. he has served within a university-level School of Materials Science and Engineering, actively engaged in research, teaching, and graduate mentorship. His work has been supported by multiple competitive funding programs, including a senior-talent startup fund, a provincial natural science foundation youth project, and a National Natural Science Foundation of China (NSFC) youth project. With more than 94 peer-reviewed publications and  granted invention patents, Dou Aichun has established a meaningful academic presence. Although specific metrics such as h-index-32, total documents, and citation counts are 3066, the volume of publications and patents demonstrates ongoing scholarly influence. His research centers on sustainable metallurgical processes, resource-efficient recovery technologies, and environmentally responsible methods for extracting and reusing critical metals. Overall, Dou Aichun is recognized as a developing leader contributing to innovations that support green and circular approaches within metallurgical engineering.

Profile: Scopus 

Featured Publications

Dou, A., & Chen, L. (2023). Recovery of precious metals from secondary resources using environmentally benign leaching systems. Journal of Sustainable Metallurgy, 9(2), 145–158.

Dou, A., Wang, Y., & Liu, Z. (2022). Hydrometallurgical extraction of heavy metals using intensified reagent systems. Metallurgical Engineering Review, 37(4), 301–315.

Dou, A. (2021). Selective separation of rare and precious metals from complex ores through advanced solvent extraction. International Journal of Mineral Processing, 58(3), 210–225.

Dou, A., Zhang, P., & He, J. (2020). Development of circular recycling pathways for nonferrous metal waste streams. Materials Recovery and Reuse, 12(1), 47–62.

Dou, A., & Xu, Q. (2019). Kinetics and mechanisms of metal dissolution in innovative green lixiviants. Journal of Metallurgical Science, 45(2), 95–108.

Yerik Merkibayev | Metallurgical Research | Editorial Board Member

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Dr. Yerik Merkibayev | Metallurgical Research | Editorial Board Member

Satbayev University | Kazakhstan

Dr. Merkibayev is a distinguished materials scientist and metallurgical engineer with extensive experience in research, teaching, and technology development in the field of metallurgy and materials science. He holds advanced degrees in Materials Science and Metallurgy and has contributed to numerous national and institutional research projects focused on the modernization of mining and metallurgical processes. His work encompasses the development of nanosized metallic powders, processing of refractory and oxidized ores, hybrid pyrometallurgical and hydrometallurgical systems, and sustainable recycling of industrial and mining wastes. He has served in various academic and technical positions, including research engineering, laboratory leadership, and senior lecturing, fostering innovation and practical applications in metallurgical technologies. Dr. Merkibayev has published multiple scientific papers, authored monographs, and holds several patents in metallurgical process design. His research interests include powder metallurgy, mineral beneficiation, ore processing, resource-efficient technologies, and environmental sustainability in the metallurgical sector. His academic record includes an h-index of 4, over 20 scientific documents, and more than 37 citations, reflecting his growing impact in the field. He continues to contribute to the advancement of environmentally responsible metallurgical and materials engineering practices through innovative research and interdisciplinary collaboration.

Profile: Google Scholar

Featured Publications

Merkibayev, Y. S., & Luganov, V. A. (2024). Development of integrated technology for reducing ore formation during liquid copper extraction. Journal of Metallurgical Research and Innovation, 12(3), 155–168.

Merkibayev, Y. S., Bekturov, K. M., & Zhumabayev, D. T. (2023). Processing of oxidized lead-zinc ores through hybrid pyrometallurgical and hydrometallurgical methods. International Journal of Materials Science and Engineering, 9(4), 201–215.

Merkibayev, Y. S., Nurmukhanov, A. R., & Akhmetov, T. B. (2022). Technological modernization in mining and metallurgical industries: Case study of Kazakhstan. Mining and Metallurgy Journal, 7(2), 95–109.

Merkibayev, Y. S., & Satpayev, K. I. (2021). Synthesis of nanosized metallic and oxidized iron powders using powder metallurgy techniques. Materials Engineering and Applications, 8(1), 44–58.

Merkibayev, Y. S., & Alimov, R. S. (2020). Environmental aspects of ore beneficiation and sustainable waste utilization in metallurgical production. Journal of Sustainable Metallurgy, 6(3), 179–192.

Zeynep Üçerler Çamur | Mineral Processing | Editorial Board Member

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Mrs. Zeynep Üçerler Çamur | Mineral Processing | Editorial Board Member

Istanbul Technical University Department of Mineral Processing Engineering | Turkey

Zeynep Üçerler Çamur is a research assistant and mineral processing engineer at Istanbul Technical University (ITU), specializing in mineral beneficiation, hydrometallurgy, and sustainable mineral processing technologies. She completed her PhD in Mineral Processing Engineering at ITU, with part of her research conducted at Mines Paris PSL and IMT École des Mines d’Albi. Her academic work focuses on lithium extraction, mineral liberation analysis, flotation, and recycling of industrial and electronic wastes. She has contributed to numerous research projects and publications on feldspar processing, huntite enrichment, e-waste metal recovery, and beneficiation of bauxite and wollastonite ores. In addition to her academic career, she has held roles in business development and process engineering, gaining practical experience in industrial mineral applications. Her technical expertise includes process simulation using USIM PAC, mineral characterization, flotation circuit design, and laboratory-scale testing. She has presented her work at international conferences and co-authored book chapters on industrial minerals and lithium-based technologies. Her research interests lie in sustainable resource utilization, circular economy, and the development of environmentally friendly mineral recovery processes. Through her interdisciplinary approach, she continues to contribute to innovation and sustainability in the mineral and metallurgical engineering sectors.

Profile: Google Scholar 

Kangal, M. O., & Üçerler, Z. (2018). Recycling of virgin and post-consumer polypropylene and high-density polyethylene. International Polymer Processing, 33(2), 268–275.

Türk, T., Üçerler, Z., Burat, F., Bulut, G., & Kangal, M. O. (2021). Extraction of potassium from feldspar by roasting with CaCl₂ obtained from the acidic leaching of wollastonite–calcite ore. Minerals, 11(12), 1369.

Üçerler, Z., & Güney, A. (2022). Investigation of lithium extraction by roasting with sulfating agent and water leaching from nepheline syenite rocks. Physicochemical Problems of Mineral Processing, 58(3), 734–742.

Türk, T., Üçerler, Z., Sökmen, İ., & Kangal, M. O. (2024). Enhancing flame retardancy: Enrichment of huntite for paint industry applications. Minerals, 14(2), 180.

Üçerler-Çamur, Z., Keleş, O., & Kangal, M. O. (2025). Mineral liberation analysis (MLA)-based characterization of lithium source: Biotite and associated minerals in nepheline syenites. Minerals, 15(8), 876.

Hatem Ksibi | Mechanical Metallurgy | Best Scholar Award

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Prof. Hatem Ksibi | Mechanical Metallurgy | Best Scholar Award

University of Sfax, IPEIS | Tunisia

Prof. Dr. Eng. Hatem Ksibi is a Full Professor of Chemical Engineering at the University of Sfax and a Senior Researcher at the Laboratory of Materials Applications in Environment, Water and Energy, University of Gafsa. He holds a PhD in Chemical Engineering from the University of Paris–Sorbonne North and an Advanced Diploma in Energy Conversion from the University Pierre and Marie Curie. His academic and research career spans over two decades, focusing on materials science, process engineering, and environmental technologies. His work emphasizes the valorization of industrial by-products such as phosphogypsum, supercritical fluid extraction, powder technology, crystallization processes, and biogas production through anaerobic digestion. Prof. Ksibi integrates advanced numerical modeling, simulation, image analysis, and machine learning techniques in engineering problem-solving and education. He has authored numerous scientific publications, supervised several doctoral theses, and contributed extensively to interdisciplinary research linking theory, experimentation, and sustainable industrial practice. With an h-index of 10, over 305 citations, and more than 39 documents indexed in major scientific databases, he actively reviews for international journals and participates in national and international scientific committees. His research advances sustainable engineering solutions and promotes digital transformation in industrial and environmental systems.

Profiles: Scopus | Google Scholar | Orcid

Featured Publications

Ksibi, H. (2025). Refined covolume approach for heavy alkanes in Abel–Noble EOS at high pressures. International Journal of Thermodynamics, 28(2), 35–44.

Ksibi, H. (2024). Morphology and size comparison of crystallized materials using image-based counting techniques: Conventional vs. supercritical processes. Journal of Chemistry and Technologies, 33(2), 312576.*

Ksibi, H. (2023). Bioactive Chemlali olive derivatives and compounds useful for pharmaceutical purposes: A review. International Journal of Plant Based Pharmaceuticals, 3(2), 215–227.

Ksibi, H. (2024). Valorization of phosphogypsum waste into sustainable materials for environmental applications. Environmental Engineering and Management Journal, 23(4), 451–460.

Ksibi, H. (2022). Application of machine learning and image analysis in materials characterization and process modeling. Journal of Materials and Environmental Science, 13(8), 785–794.