Prof. Mingyong Wang is a renowned expert in green electrochemical metallurgy, specializing in sustainable metal extraction and refining technologies π±β‘. He earned his Ph.D. in 2011 from the Institute of Process Engineering, Chinese Academy of Sciences, Beijing and is now a professor at the University of Science and Technology Beijing π«. His research has led to breakthroughs in super gravity electro-metallurgy, clean vanadium/titanium extraction, and high-purity metal refining ππ©. With high-impact publications, major research funding, and industry collaborations, he is shaping the future of sustainable metallurgy and advanced materials ππ.
Prof Mingyong Wang, University of Science and Technology Beijing, China
Profile
GOOGLESCHOLAR
Academic Background π
Prof. Mingyong Wang earned his Ph.D. in 2011 from the Institute of Process Engineering, Chinese Academy of Sciences, Beijing π«βοΈ. Currently, he is a professor at the State Key Laboratory of Advanced Metallurgy, University of Science and Technology Beijing ππ. His research focuses on green electrochemical metallurgy, contributing to sustainable metal extraction and refining technologies πβ‘. With extensive experience in metallurgical process engineering, he plays a key role in advancing clean energy solutions and high-purity metal production ππ©, making him a leading expert in modern metallurgical science π.
Research Focus π¬
Prof. Mingyong Wang specializes in green electrochemical metallurgy, focusing on sustainable and energy-efficient metal extraction and refining processes πβ»οΈ. His research advances eco-friendly electrometallurgy, reducing waste and environmental impact in metal production ππ©. He has developed innovative methods for super gravity-assisted electrolysis, clean vanadium/titanium extraction, and high-purity metal refining using molten salt electrolysis βοΈπ. His work bridges fundamental electrochemistry and industrial applications, driving technological advancements in metallurgy π. By optimizing metal recovery and purification, his research supports the transition to sustainable and green metal processing solutions π±π.
Contributions π±
Prof. Mingyong Wang is a pioneer in green electrochemical metallurgy, focusing on sustainable metal extraction π±π. His key achievements include:
Super Gravity Electro-Metallurgy: Developed an innovative method to enhance electrometallurgy from low-concentration metal solutions, enabling the high-purity electrolysis of ultrafine copper powders (500 tons/year) π©π.
Eco-Friendly Vanadium/Titanium Processing: Introduced a short-process, clean electrochemical route for vanadium/titanium oxysalts extraction β»οΈπ οΈ.
High-Purity Metal Refining: Designed a precise molten salt electrolysis technique for producing high-purity vanadium and titanium metals πβοΈ.
PublicationsΒ π
“The Intensification Technologies to Water Electrolysis for Hydrogen ProductionβA Review” π§β‘
π¨βπ» Authors: M. Wang, Z. Wang, X. Gong, Z. Guo
π Journal: Renewable and Sustainable Energy Reviews (Citations: 1085, 2014)
“Platinum Catalysts Prepared with Functional Carbon Nanotube Defects and Its Improved Catalytic Performance for Methanol Oxidation” ππ¬
π¨βπ» Authors: J. Chen, M. Wang, B. Liu, Z. Fan, K. Cui, Y. Kuang
π Journal: The Journal of Physical Chemistry B (Citations: 244, 2006)
“Nonaqueous Rechargeable Aluminum Batteries: Progresses, Challenges, and Perspectives” πβοΈ
π¨βπ» Authors: J. Tu, W.L. Song, H. Lei, Z. Yu, L.L. Chen, M. Wang, S. Jiao
π Journal: Chemical Reviews (Citations: 238, 2021)
“Preparation and Characterization of Manganese Oxide/CNT Composites as Supercapacitive Materials” β‘π
π¨βπ» Authors: Z. Fan, J. Chen, M. Wang, K. Cui, H. Zhou, Y. Kuang
π Journal: Diamond and Related Materials (Citations: 209, 2006)
“Rechargeable Ultrahigh-Capacity TelluriumβAluminum Batteries” ππ
π¨βπ» Authors: X. Zhang, S. Jiao, J. Tu, W.L. Song, X. Xiao, S. Li, M. Wang, H. Lei, D. Tian, et al.
π Journal: Energy & Environmental Science (Citations: 195, 2019)
“Water Electrolysis Enhanced by Super Gravity Field for Hydrogen Production” π§π©
π¨βπ» Authors: M. Wang, Z. Wang, Z. Guo
π Journal: International Journal of Hydrogen Energy (Citations: 165, 2010)
Prof. Mingyong Wangβs highly cited research in hydrogen production, energy storage, and electrochemical catalysis has made a significant impact on sustainable energy and metallurgy ππ.