Ayesha Tasawar | Hydrometallurgical | Excellence in Research Award

Published on 20/01/202620/01/2026 by MTE Awards

Mrs. Ayesha Tasawar | Hydrometallurgical | Excellence in Research Award

Scientific Assistant at Institute of Process Metallurgy and Metal Recycling (IME), RWTH Aachen University | Germany

Mrs. Ayesha Tasawar is an emerging researcher in process metallurgy and sustainable materials engineering, with a strong focus on lithium-ion battery recycling and resource recovery. Her research addresses key challenges in circular economy technologies, particularly the hydrometallurgical processing of lithium iron phosphate (LFP) blackmass. She is the lead author of peer-reviewed journal articles in Resources, Conservation and Recycling and Metals, demonstrating original contributions to efficient lithium recovery through oxidative roasting and organic-acid-enabled leaching. Her work combines scientific rigor with industrial relevance, offering environmentally responsible solutions for advanced battery recycling. Scopus profile, 2 publications, emerging citation record, and emerging h-index.

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Featured Publications

Efficient lithium recovery from industrial lithium iron phosphate (LFP) blackmass using formic acid-enabled hydrometallurgy
– Resources, Conservation and Recycling, 2026

Effect of Oxidative Roasting on Selective Leaching of Lithium from Industrially Shredded Lithium Iron Phosphate Blackmass
– Metals, 2025

Harun Mindivan | Titanium Alloy | Best Researcher Award

Published on 18/11/2025 by MTE Awards

Prof. Dr. Harun Mindivan | Titanium Alloy | Best Researcher Award

Professor at Bilecik Seyh Edebali University | Turkey

This researcher has established a distinguished scientific profile in materials science and mechanical engineering, with a strong emphasis on tribology, surface modification, and advanced coating technologies. With 612 citations, 52 Scopus-indexed documents, and an h-index of 13, their research impact is well recognized within the global scientific community. Their work centers on developing high-performance materials and engineered surfaces capable of withstanding extreme mechanical, thermal, and corrosive environments. They have contributed extensively to the development of plasma-nitrided steels, electroless and electrochemical borided alloys, graphene-enhanced composite coatings, high-velocity oxy-fuel (HVOF) sprayed stainless steel coatings, and oxide-reinforced thin films. Through comprehensive analyses of microstructure–property relationships, the researcher advances understanding of wear mechanisms, tribocorrosion behavior, hardness enhancement, and coating adhesion in metallic systems. Their investigations on metal–matrix composites-such as carbon-nanotube-reinforced aluminum and magnesium-offer significant innovations in lightweight structural materials. Additional contributions include studies on surface optimization of titanium alloys, corrosion-resistant coatings, and improvements in machinability and mechanical integrity of industrial steels. Their research outputs are consistently published in reputable scientific journals indexed in Scopus and other major databases, demonstrating steady productivity and high citation engagement. By integrating experimental surface engineering methods with performance evaluation techniques, the researcher provides actionable scientific advancements that support the development of durable engineering materials. This strong publication record and sustained contribution across multiple material systems highlight the researcher’s ongoing significance and excellence in the field.

Profiles : Scopus | ORCID | Google Scholar

Featured Publications

Mindivan, H., Kayali, E. S., & Cimenoglu, H. (2008). Tribological behavior of squeeze cast aluminum matrix composites. Wear, 265(5–6), 645–654.

Mindivan, H., Efe, A., Kosatepe, A. H., & Kayali, E. S. (2014). Fabrication and characterization of carbon nanotube reinforced magnesium matrix composites. Applied Surface Science, 318, 234–243.

Mindivan, H., Çimenoğlu, H., & Kayali, E. S. (2003). Microstructures and wear properties of brass synchroniser rings. Wear, 254(5–6), 532–537.

Mindivan, H., Baydogan, M., Kayali, E. S., & Cimenoglu, H. (2005). Wear behaviour of 7039 aluminum alloy. Materials Characterization, 54(3), 263–269.

Mindivan, H. (2010). Reciprocal sliding wear behaviour of B₄C particulate reinforced aluminum alloy composites. Materials Letters, 64(3), 405–407.

Qian Li | Minerals Engineering | Pioneer Researcher Award

Published on 30/10/202530/10/2025 by MTE Awards

Prof. Qian Li | Minerals Engineering | Pioneer Researcher Award

Professor at University of South China | China

Prof. Qian Li, a distinguished scholar in biohydrometallurgy at the University of South China, has made exceptional contributions to understanding microbial processes in mineral engineering, particularly uranium bioleaching and residue stabilization. His research integrates microbiological mechanisms with mineral system engineering to address challenges in uranium extraction and environmental remediation. He has directed numerous national and provincial research projects focused on the behavior of iron/sulfur-oxidizing bacterial consortia, in-situ passivation of uranium residues, and eco-friendly leaching technologies. Prof. Li’s innovative studies on biogenic coatings, microbial oxidation, and nanobubble-assisted leaching have introduced new approaches to sustainable metal recovery and waste control. His extensive publication record exceeds 80 research articles in reputed journals including Journal of Hazardous Materials, Frontiers in Microbiology, and Journal of Cleaner Production, showcasing his interdisciplinary expertise and technical leadership. As documented in his Scopus profile, he has accumulated over 4,651 citations, 289 indexed documents, and an h-index of 39, underscoring his scientific impact and recognition within the international minerals engineering community. Through his pioneering work on microbial-mineral interactions, Prof. Li continues to advance the field toward cleaner and more efficient resource utilization, establishing himself as a leading figure in metallurgical and environmental biotechnology.

Profile : Scopus | ORCID | Google Scholar

Featured Publications

Li, S., Xiao, L., Sun, J., Li, Q., Li, G., Cui, Z., Li, T., & Zhou, X. (2025). Biogenic jarosite coating as an innovative passivator for acidic uranium residue stabilization using Acidithiobacillus ferrooxidans. Journal of Hazardous Materials, 471, 140229. DOI: 10.1016/j.jhazmat.2025.140229

Xiao, L., Li, S., Liu, X., Sun, J., Li, G., Cui, Z., Li, T., & Li, Q. (2024). Linked variations of bioleaching performance, extracellular polymeric substances (EPS) and passivation layer in the uranium bacterial-leaching system. Journal of Radioanalytical and Nuclear Chemistry, 334, 637–651. DOI: 10.1007/s10967-024-09851-6

Li, Q., Liu, X., Ma, J., Sun, J., Li, G., Cui, Z., & Li, T. (2023). Bidirectional effects of sulfur-oxidizer Acidithiobacillus thiooxidans in uranium bioleaching systems with or without sulfur by mixed acidophilic bacteria. Journal of Radioanalytical and Nuclear Chemistry, 332, 1787–1794. DOI: 10.1007/s10967-023-08841-4

Sun, J., Ma, J., Li, Q., Li, G., Shi, W., Yang, Y., Hu, P., & Guo, Z. (2022). Role of Fe/S ratios in the enhancement of uranium bioleaching from a complex uranium ore by Acidithiobacillus ferrooxidans and Acidithiobacillus thiooxidans consortium. Journal of Central South University, 29(12), 3858–3869. DOI: 10.1007/s11771-022-5216-1

Yang, Y., Li, Q., Li, G., Ma, J., Sun, J., Liu, X., Cui, Z., & Li, T. (2022). Depth-induced deviation of column bioleaching for uranium embedded in granite porphyry by defined mixed acidophilic bacteria. Journal of Radioanalytical and Nuclear Chemistry, 331, 3681–3692. DOI: 10.1007/s10967-022-08418-7

Chen, Z., Li, Q., Yang, Y., Sun, J., Li, G., Liu, X., Shu, S., Li, X., & Liao, H. (2022). Uranium removal from a radioactive contaminated soil by defined bioleaching bacteria. Journal of Radioanalytical and Nuclear Chemistry, 331, 439–449. DOI: 10.1007/s10967-021-08077-0

Abid Hussain | Shape Memory Alloys | Best Researcher Award

Published on 17/10/202517/10/2025 by MTE Awards

Dr. Abid Hussain | Shape Memory Alloys | Best Researcher Award

Lab Engineer at University of Engineering and Technology, Peshawar | Pakistan

Dr. Abid Hussain is a mechanical and materials engineer recognized for his multidisciplinary research in advanced alloys, renewable energy technologies, and computational modeling. His studies focus on the development and enhancement of TiNiPdCu-based shape memory alloys produced via powder metallurgy, targeting high-temperature applications in energy and aerospace systems. He has also explored solar-driven water purification, Stirling engine design, and absorption cooling systems that integrate sustainable energy sources. Dr. Hussain’s research extends into computational fluid dynamics and structural analysis, emphasizing the mechanical performance of engineered systems under diverse environmental and seismic conditions. His publication record reflects a strong commitment to materials innovation, energy efficiency, and environmental sustainability. With 69 citations, 9 indexed documents, and an h-index of 5 in Scopus, Dr. Hussain continues to contribute impactful knowledge that advances metallurgical and mechanical engineering frontiers globally.

Profile : Scopus | ORCID | Google Scholar

Featured Publications

Manzoor, F., Wei, L., Hussain, A., Asif, M., & Shah, S. I. A. (2019). Patient satisfaction with health care services: An application of physician’s behavior as a moderator. International Journal of Environmental Research and Public Health, 16(18), 3318. Cited by 649 documents.

Klein Tank, A. M. G., Peterson, T. C., Quadir, D. A., Dorji, S., Zou, X., Tang, H., … Hussain, A. (2006). Changes in daily temperature and precipitation extremes in central and south Asia. Journal of Geophysical Research: Atmospheres, 111(D16). Cited by 630 documents.

Qing, M., Asif, M., Hussain, A., & Jameel, A. (2020). Exploring the impact of ethical leadership on job satisfaction and organizational commitment in public sector organizations: The mediating role of psychological empowerment. Review of Managerial Science, 14(6), 1405–1432. Cited by 515 documents.

Cheema, M. A., Malik, M. A., Hussain, A., Shah, S. H., & Basra, S. M. A. (2001). Effects of time and rate of nitrogen and phosphorus application on the growth and the seed and oil yields of canola (Brassica napus L.). Journal of Agronomy and Crop Science, 186(2), 103–110. Cited by 308 documents.

Hassan, F., Jamil, F., Hussain, A., Ali, H. M., Janjua, M. M., Khushnood, S., & … (2022). Recent advancements in latent heat phase change materials and their applications for thermal energy storage and buildings: A state of the art review. Sustainable Energy Technologies and Assessments, 49, 101646. Cited by 306 documents.

Raghukumar Bommenahalli | Mechanical Metallurgy | Best Researcher Award

Published on 16/09/202516/09/2025 by MTE Awards

Raghukumar Bommenahalli | Mechanical Metallurgy | Best Researcher Award

Prinicipal Engineer at DEKRA Certification, Inc. | United States

Mr. Raghukumar Bommenahalli is a seasoned mechanical engineer with over two decades of industrial experience specializing in zero-emission transportation and energy infrastructure. Currently serving as Principal Engineer at DEKRA Certification Inc., he leads the Vehicle Innovation Grid Lab (ViGIL) and ADAS Data Collection Program, advancing California’s clean transportation initiatives through rigorous EV and EVSE testing, standards compliance, and interoperability validation. Prior to this, he was Program Manager for Codes and Standards at Nikola Motor Corporation, where he guided regulatory compliance and standards development for battery-electric and fuel-cell electric vehicles, including cybersecurity frameworks and ADAS integration for heavy-duty trucks. His earlier role at Cummins Inc. as Codes and Standards Compliance Leader saw him authoring 40+ validation plans across UL, CSA, IEC, and EN standards while pioneering hydrogen fuel cell and BEV compliance programs. Raghukumar has also contributed to major engineering projects in roles with TAAL Technologies, Creative Synergies Group, Toyo Denki Power Systems, and Cummins Generator Technologies. He is actively involved in global standards development as a voting member on multiple SAE task forces and as Co-Chair of the CharIN NACI Task Force. With a strong academic foundation that includes an Executive Master’s in Engineering Management from St. Cloud State University, a Master’s in Machine Design, and a Bachelor’s in Mechanical Engineering from Visvesvaraya Technological University, he complements his technical expertise with certifications such as PMP, DFSS, and internal auditing. In addition to his leadership in compliance, testing, and certification, he contributes as a peer reviewer for leading journals, organizes technical conferences, and holds a registered design patent in EV charging efficiency.

Pofile: Scopus | ORCID

Featured Publication

Bommenahalli, R. (2025). Effect of nickel on the mechanical properties of spray-formed Al-15Si-2Cu alloy at elevated temperatures. Journal of Alloys and Compounds.

Bommenahalli, R. (2025). Computing device for enhancing charging efficiency in electric vehicle [Patent]. UK Intellectual Property Office.

Bommenahalli, R. (2025). Fuel cell Class 8 trucks: Pioneering the path to sustainable heavy transportation. Website article.

Bommenahalli, R. (2025). Navigating the future: Innovations reshaping the EV charging landscape. International Business Times.