lecturer at Qingdao Campus, Naval Aviation University, China
Dr. Wenfei Yang is a dedicated researcher and lecturer in the Department of Aviation Mechanical Engineering and Command at the Naval Aviation University, Qingdao Campus. With a strong academic background in material science and engineering, he has contributed significantly to the field, particularly in material physics and chemistry. His research focuses on innovative synthesis techniques and electrochemical properties of advanced materials, emphasizing their potential applications in energy storage and absorption mechanisms.
profile
scopus
Education
Dr. Yang earned his Ph.D. in Material Physics and Chemistry from Dalian University of Technology in November 2021. Prior to this, he obtained his Bachelor’s degree in Material Science and Engineering from Guizhou Normal University in June 2016. His academic journey has provided him with a robust foundation in material synthesis, structural characterization, and electrochemical applications, shaping his expertise in advanced materials and their practical applications.
Experience
Since December 2021, Dr. Yang has been serving as a lecturer at the Naval Aviation University, Qingdao Campus, where he specializes in aviation mechanical engineering. His professional experience extends to his doctoral research at Dalian University of Technology, where he conducted extensive studies on material physics and chemistry. His work primarily revolves around innovative material synthesis, absorption mechanisms, and the development of nanocomposites for various industrial applications.
Research Interests
Dr. Yang’s research interests include advanced material synthesis, electrochemical energy storage, and nanocomposite development. He has extensively explored the lithiation/delithiation activities of nanostructured materials and their implications in energy storage systems. His work also delves into controlled synthesis techniques, absorption mechanisms, and the role of plasma processes in nanomaterial formation. His contributions aim to enhance the efficiency and sustainability of energy storage technologies through innovative material engineering.
Awards
As of the latest records, Dr. Yang has not received specific academic awards or recognitions. However, his extensive contributions to material science and his role as a lecturer highlight his dedication to advancing research and education in his field. His publications in high-impact journals demonstrate his scholarly excellence and potential for future accolades.
Publications
Yang, W., Gao, Z., Zhang, Y., Shi, H., Wang, A., & Fan, W. (2025). Controlled Synthesis and Absorption Mechanism Study of FCI@UFC Absorbents. Materials, 18(1017). (Cited by multiple studies in material absorption research.)
Yang, W., Liang, J., Zhang, Z., et al. (2020). Electrochemical Lithiation/Delithiation Activities of the Random SiO2/Mn Nanowires In-situ Synthesized by an Instantaneous Arc-Plasma. Journal of Alloys and Compounds, 844(156207). (Widely referenced in electrochemical energy storage studies.)
Yang, W., Jung, Y., Huang, F., et al. (2021). Instantaneous Vapor-Liquid-Solid Growth of Amorphous SiO2 Nanowires Within a Local-Equilibrium Plasma and the Optimized Lithiation/Delithiation Activity. Applied Surface Science, 557, 149848. (Recognized for contributions to nanowire growth techniques.)
Gao, J., Yang, W., Fang, C., et al. (2021). Facile Synthesis of TiO2/WO3 Nanocomposites and the Electrochemical Lithiation/Delithiation Activity. Journal of Materials Science, 56, 14505-14517. (Co-first author; cited in nanocomposite studies.)
Yang, W., Zhang, Y., Fan, W., Wang, A., Dong, X. (2023). Co-Evaporation of Amorphous TiO2-Based Nanocomposite Materials Under DC Arc Plasma and Lithium Storage Performance. Material Reports, 37(10A): 25-32. (Highly regarded in lithium storage research.)
Conclusion
Dr. Wenfei Yang exemplifies the qualities of an outstanding researcher through his rigorous scientific contributions, dedication to materials science, and innovation in nanotechnology. His research significantly advances electrochemical materials, making him a deserving nominee for the Research for Best Researcher Award.