IntroductionProfessor Wan is the chairman of the Professional Committee of Non-metallic Corrosion Resistant Materials and Advanced Preparation Technology of China Corrosion and Protection Society, the discipline leader in the field of production safety in Beijing, and the director of China Chemical Safety Association. In 1998, he was awarded as Beijing Outstanding Young backbone teacher. In 2000, it was included in the young backbone teacher funding program of the Ministry of Education. In 1994, he won the Science and Technology Progress Award of the Ministry of Chemical Industry. In 1998, he won the Science and Technology Progress Award of the State Bureau of Petroleu- m and Chemical Industry. In 2002, he won the Beijing Science and Technology Progress Award. He has published more than 90 academic papers, including more than 60 SCI papers. EducationWork ExperienceSocial PositionSocial ActivitiesResearchMain research areas: (1) Electrochemistry (2) Applied chemistry (3) electrochemical technology and process of green power saving (4) Safety analysis and water environment monitoring (5) New technologies and materials for water purification (6) Effective utilization technology of biomass and mineral resources Teaching《Innovation and development of electrochemical technology》 PostgraduatesFundingVertical ProjectHorizontal ProjectPublications
[1]Liu H. T., Zhou J. Y., Li G., Han X. J., Li T. J., Gao X. H., Xie F. M., Wan P. Y. and Liu H. H. (2023). Synthesis of Mesoporous Aluminosilicates with Moderate Acidity and High Hydrothermal Stability by Acid-Free Method. Industrial & Engineering Chemistry Research62(47): 20251-20258. [2]Jia X., Yan K., Sun Y., Chen Y., Tang Y., Pan J. and Wan P. (2024). Solvothermal Guided V(2)O(5) Microspherical Nanoparticles Constructing High-Performance Aqueous Zinc-Ion Batteries. Materials (Basel)17(7). [3]Li A., Qiu H., Wang Z., Sun Y., Tang Y., Wan P., Jiang H. and Chen Y. (2024). Electrocatalytic Conversion of Methane to Ethanol via Promoted •OH Generation in Aqueous Electrolyte. ACS Sustainable Chemistry & Engineering12(25): 9558-9567. [4]Li J. P., Sun Y. Z., Jia X. H., Chen Y. M., Tang Y., Wan P. Y. and Pan J. Q. (2024). Boron, oxygen co-doped porous carbon derived from waste tires with enhanced hydrophilic interface as sustainably high-performance material for supercapacitors. Journal of Energy Storage80. [5]Ren H., Wang Q., Sun Y., Chen Y., Wan P. and Pan J. (2024). Study on the removal of SO42− and Ca2+ from potassium chloride brine via a method combining calcium chloride and carbon dioxide. New Journal of Chemistry48(21): 9663-9671. [6]Sun Q., Liu J. Q., Zhou B., Liu Y. P., Tang Y., Wan P. Y., Hu Q. and Yang X. J. (2024). Low Overpotential Electroreduction of CO on Porous SnO/ZnO Catalysts. Journal of Electrochemical Energy Conversion and Storage21(2). [7]Tian T., Wang Z., Li K., Jin H., Tang Y., Sun Y., Wan P. and Chen Y. (2024). Study on Influence Factors of H(2)O(2) Generation Efficiency on Both Cathode and Anode in a Diaphragm-Free Bath. Materials (Basel)17(8). [8]Wang Z., Sun Z., Li K., Fan K., Tian T., Jiang H., Jin H., Li A., Tang Y., Sun Y., Wan P. and Chen Y. (2024). Enhanced electrocatalytic performance for H(2)O(2) generation by boron-doped porous carbon hollow spheres. iScience27(4): 109553. [9]Xie A., Tai X. F., Guo Y. J., Miao J. Y., Liu D. Y., Zhang R. F., Cheng L. T., Zhao Z. M., Tang Y., Yang X. J., Pan J. Q. and Wan P. Y. (2024). Elaborate construction of honeycomb-like porous carbon with embedment of N-doped carbon nanotubes as efficient electrocatalyst for zinc-air battery. Carbon228. [10]Zhang R. F., Liu Q. X., Zhou L. L., Wang L. N., Cheng L. T., Xie A., Xu H. J., Bai Z. Q., Tang Y. and Wan P. Y. (2024). NiMoFeO and its derived composite material as highly efficient and robust OER and HER catalysts for intermittent water electrolysis. International Journal of Hydrogen Energy82: 1341-1350.
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