Yonghong Qin – Mineral Processing Engineering – Best Research Article Award

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Yonghong Qin - Mineral Processing Engineering - Best Research Article Award

Shanxi University - China

AUTHOR PROFILE

SCOPUS

SUMMARY

Yonghong Qin is a highly accomplished researcher in the field of engineering, with a strong academic and project-based background. Holding a PhD from Northeastern University, he has developed specialized expertise in mineral processing and resource utilization. As a master's supervisor and an active contributor to significant research initiatives, he has played a vital role in advancing sustainable industrial technologies. His contributions span multiple national and provincial projects, and he is widely recognized for his innovative work, publications, and patents. His professional trajectory reflects deep commitment to applied research and academic excellence.

EDUCATION

Yonghong Qin earned his PhD in Engineering from Northeastern University in 2022, equipping him with a robust foundation in materials and mineral processing. His academic training emphasized practical and scientific approaches to extractive metallurgy and sustainable resource use. Through rigorous coursework, research, and collaborative projects, he developed a multidimensional understanding of process optimization, environmental sustainability, and materials engineering. His academic journey laid the groundwork for his active engagement in high-impact industrial and research projects across China, particularly in collaboration with major mining and metallurgy enterprises.

PROFESSIONAL EXPERIENCE

Dr. Qin has amassed valuable professional experience through his involvement in numerous research projects and industrial collaborations. He led a youth project funded by the Shanxi Natural Science Foundation and served as a key researcher in several major national initiatives, including the National Natural Science Foundation’s Key Fund projects. His practical work with enterprises like Ansteel, China Steel, and Hainan Mining underscores his ability to bridge academia and industry. His R&D contributions in suspension roasting and aluminum waste reutilization highlight his role as a technical innovator and project leader in sustainable engineering.

RESEARCH INTEREST

Yonghong Qin's research interests focus on mineral processing, sustainable metallurgy, and waste resource utilization. He has a strong passion for developing environmentally responsible and economically viable technologies for the processing of low-grade and difficult-to-treat mineral resources. His work includes investigating advanced suspension roasting technologies and the reuse of industrial by-products such as electrolytic aluminum waste. These interests reflect a broader commitment to ecological engineering and support the advancement of green technologies in heavy industry, contributing meaningfully to both academic knowledge and real-world solutions.

AWARD AND HONOR

Dr. Qin's scholarly contributions have earned him recognition in both academic and industrial settings. He has received funding and support from prestigious institutions such as the Shanxi Natural Science Foundation. His publication record, patent ownership, and role as a reviewer for several international SCI journals underscore his standing in the scientific community. His work’s impact on industrial processes and environmental practices positions him as a respected thought leader and innovator. These honors reflect both the quality and the societal relevance of his scientific endeavors.

RESEARCH SKILL

Yonghong Qin possesses extensive skills in experimental design, materials characterization, and process optimization. He is adept in conducting applied research, especially in areas such as suspension roasting technology and mineral beneficiation. His analytical abilities are reinforced by his experience with interdisciplinary collaboration, enabling the translation of laboratory findings into scalable industrial applications. In addition to technical proficiency, he has strong scientific writing and peer review capabilities, as evidenced by his publication record and reviewer responsibilities for top-tier journals. His skill set is highly aligned with industry demands and sustainability goals.

NOTABLE PUBLICATIONS

Title: Interfacial mechanism of asymmetric Gemini surfactant in synergy with kerosene for enhancing low-rank coal flotation
Authors: Xin Wang, Xinyu Cui, Rui Ding, Enze Li, Fangqin Cheng
Journal: Colloids and Surfaces A: Physicochemical and Engineering Aspects
Year: 2025

Title: Electric field distribution and selective liberation in magnetite quartzite under high voltage pulse discharge
Authors: Yonghong Qin, Ziyu Yang, Yuexin Han, Yanjun Li, Ningyu Zhang
Journal: Minerals Engineering
Year: 2025

CONCLUSION

Yonghong Qin represents a new generation of researchers committed to sustainable technological innovation in the field of mineral processing and materials engineering. His balance of academic rigor, practical insight, and industrial collaboration enables him to address real-world challenges with scientific precision. Through continuous engagement in research, patent development, and academic discourse, he contributes to building environmentally friendly industrial practices. As a rising academic and research leader, his ongoing work promises to play an essential role in the future of sustainable engineering and resource efficiency.

Wang Yanfen – Mining engineering – Best Researcher Award

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Wang Yanfen - Mining engineering - Best Researcher Award

Anhui University of Science& Technology - China

AUTHOR PROFILE

SCOPUS

SUMMARY

Wang Yanfen is a dedicated researcher specializing in geotechnical engineering and nanomaterials, known for bridging advanced materials research with real-world underground construction applications. His career reflects a commitment to sustainable innovation, particularly in the development of grouting materials and surface-enhanced technologies. With a prolific record of high-impact publications and patents, he has established himself as a leader in the fields of cement composites, photocatalytic materials, and anchoring mechanisms. His work supports infrastructure durability and environmental responsibility, serving as a foundation for future advancements in underground construction, waste utilization, and nanotechnology-driven engineering materials.

EDUCATION

Wang Yanfen earned his Ph.D. in Materials Science and Engineering from Anhui University (2016–2020). He previously completed his Master’s Degree in Mineral Processing Engineering and a Bachelor’s Degree in Inorganic Non-metallic Materials Engineering at Anhui University of Science and Technology. His academic training grounded him in materials development, characterization, and performance optimization. His doctoral research shaped his focus on advanced grouting materials, contributing to pioneering techniques in full-length anchoring systems and photocatalytic composites. These academic milestones have prepared him for a distinguished research career rooted in applied material science for geotechnical and environmental sustainability.

PROFESSIONAL EXPERIENCE

Wang Yanfen is actively involved in high-level research projects, serving as principal investigator on multiple national and provincial initiatives in China. His professional roles encompass the development of next-generation grouting materials, anchoring mechanisms, and nanostructured composites. His leadership in funded research includes major projects under the National Natural Science Foundation and the Anhui Provincial Science and Technology Department. Through these roles, he has designed and implemented cutting-edge engineering solutions for mining safety and material performance. His practical contributions have significantly advanced the integration of innovative materials into underground infrastructure and environmental remediation systems.

RESEARCH INTEREST

His research focuses on geotechnical material innovations, especially in the development of ultrafine cement-based grouting systems and fiber-reinforced anchoring technologies. Wang is also deeply invested in the photoelectrochemical properties of nanomaterials such as TiO₂-based composites, exploring their utility in energy, sensing, and environmental applications. Another key area is the resource utilization of industrial solid waste, aiming to transform waste into high-performance construction materials. His interdisciplinary approach bridges mineral engineering, material science, and environmental sustainability, making his research highly applicable to mining safety, infrastructure reinforcement, and green chemistry solutions.

AWARD AND HONOR

Wang Yanfen has been entrusted with prestigious roles as a principal investigator across nationally and provincially funded research programs. His work has led to multiple patents in China and South Africa, reflecting global recognition of his innovative contributions. His published articles appear in high-impact journals, including Applied Catalysis B: Environmental and Journal of the American Ceramic Society, often ranking in top-tier categories. These accomplishments underscore his scientific influence in photocatalysis, grouting composites, and nanostructured materials. While individual award titles aren’t listed, the breadth of recognition through funding, patents, and publications highlights his distinguished research standing.

RESEARCH SKILL

Wang possesses advanced expertise in synthesizing nanomaterials, characterizing grouting composites, and enhancing mechanical and photocatalytic properties through nanostructures. He is proficient in techniques like SEM, XRD, BET, UV-Vis spectroscopy, and electrochemical analysis for performance assessment. His skills span surface modification, SERS-active substrate fabrication, and full-length anchoring mechanisms in underground engineering. He also leads experimental design in evaluating hydration behavior, structural reinforcement, and fluidity of cementitious materials. His methodological strength lies in integrating laboratory synthesis with field-applicable technologies, ensuring that scientific discoveries translate into engineering practices for safer, stronger, and more sustainable infrastructure.

RECENT PUBLICATIONS

Title: Grazing exclusion enriches arbuscular mycorrhizal fungal communities and improves soil organic carbon sequestration in the alpine steppe of northern Xizang
Authors: Y. Tang, C. Zhou, K. Chen, ... B. Ji, J. Zhang
Journal: Journal of Integrative Agriculture, 2025

Title: Nitrogen availability in soil controls uptake of different nitrogen forms by plants
Authors: M. Liu, X. Xu, W. Wanek, ... H. Ouyang, Y. Wang Yanfen
Journal: New Phytologist, 2025

Title: Microbial nitrification inhibitor enhances alpine grassland productivity through narrowing plant niche breadth by utilizing more ammonium
Authors: L. Cui, K. Xue, J. Dong, ... Y. Hao, Y. Wang Yanfen
Journal: Biology and Fertility of Soils, 2025

Title: The Decarbonizing Strategies of China’s Iron and Steelmaking Industry: A Comprehensive Perspective
Authors: Z. Wei, K. Xue, G. Hu, Y. Wu, Y. Wang Yanfen
Journal: Sustainability (Switzerland), 2024

Title: Influence of calcination temperature of industrial by-product gypsum on sulphoaluminate cement-based grouting material
Authors: J. Ai, Y. Wang Yanfen, X. Cheng, ... X. Meng, S. Huang
Journal: Construction and Building Materials, 2025

CONCLUSION

Wang Yanfen's profile exemplifies a rare blend of scientific rigor and practical innovation. His contributions to cement-based materials, nanocomposite photocatalysts, and sustainable engineering solutions address pressing challenges in underground construction and environmental stewardship. He consistently translates research into real-world applications, as evidenced by his patents and funded projects. Wang’s expertise continues to shape safer mining practices, high-performance infrastructure materials, and greener industrial technologies. As he moves forward, his multidisciplinary knowledge positions him as a thought leader in integrating nanotechnology with structural engineering and sustainability science.