š Education:
2011ā2015: Bachelor’s degree in Applied Physics from Xinyang Normal University. 2015ā2017: Master’s degree in Condensed Matter Physics from Guangxi University, under the supervision of Prof. Pei Kang Shen. 2017ā2020: Ph.D. in Chemical Engineering from Guangxi University, also under Prof. Pei Kang Shen’s guidance. During his academic journey, Liu honed his expertise in electrochemical materials and catalysis, gaining comprehensive knowledge in both theoretical and practical aspects of energy conversion technologies.
š¢ Experience:
Yang Liu is currently an Associate Professor at Henan Normal University, specializing in electrochemical energy materials. His research focuses on the design of efficient catalysts for processes like ammonia synthesis and nitrate reduction. He has co-authored 15 high-impact journal articles, establishing himself as a significant contributor to advancements in renewable energy and electrochemical catalysis. Liu’s work integrates experimental and theoretical approaches, targeting energy conversion and storage applications. His academic experience is marked by interdisciplinary collaborations with experts in physics, chemistry, and engineering.
š Awards and Honors:
Although specific awards are not mentioned in the provided details, Yang Liu’s numerous publications in high-impact journals such as Advanced Materials and Nano Energy signify his recognition within the academic community. His equal contributions to collaborative works and extensive research on electrochemical energy materials suggest that Liu is held in high esteem by peers. His role as a co-author in groundbreaking studies in catalysis and renewable energy likely reflects his standing as a respected scientist in the field of material science.
š Research Focus:
Yang Liu’s research centers on electrochemical energy materials, particularly catalysts for nitrate reduction and ammonia synthesis. He works on advancing electrocatalytic processes, focusing on improving reaction efficiency and sustainability. His recent studies include exploring metallic glasses, asymmetric 3D electronic structures, and single-atom catalysts. Liu is also involved in the development of self-powered electrocatalytic systems using renewable energy sources such as wind energy. His work aims to solve energy-related challenges by enhancing the performance of materials used in energy conversion and storage technologies.