周万海,专任副研究员。2010-2020年本/硕/博就读于四川大学,2020年12月获得博士学位(导师:陈云贵教授),2021-2023年在复旦大学先进材料实验室进行博士后研究(合作导师:赵东元院士、晁栋梁教授)。主要从事新型电化学反应电对开发与原位机理表征,功能多孔电极材料精准调控与宏量制备,以及高比能水系电池、钠离子电池器件化研究。
曾获得国家自然科学基金青年基金项目、中国博士后科学基金第3批特别资助(站前)及第69批面上资助一等、上海市“超级博士后”、上海市启明星培育计划扬帆专项、第二届全国博士后创新创业大赛金奖、四川省优秀大学毕业生等。已在Joule、Natl. Sci. Rev.、J. Am. Chem. Soc.、Energy Environ. Sci.、Angew. Chem. Int. Ed.等期刊发表论文40余篇(10余篇入选ESI高被引),论文被引用3700余次,H指数23 (updated on 11/2023)。
联系方式:
E-mail:zhouwh@fudan.edu.cn
地址:上海市淞沪路2205号复旦大学江湾校区先进材料实验室619
论文情况:
[1] W. Zhou, S. Ding, D. Zhao, D. Chao*, An energetic Sn metal aqueous battery, Joule 2023, 7, 1104.
[2] W. Zhou, H.J. Fan, D. Zhao, D. Chao*, Cathodic electrolyte engineering toward durable Zn–Mn aqueous batteries, Natl. Sci. Rev. 2023, 10, nwad265.
[3] W. Zhou, M. Song, P. Liang, X. Li, X. Liu, H. Li, T. Zhang, B. Wang, R. Zhao, Z. Zhao, W. Li, D. Zhao, D. Chao*, High-Energy Sn–Ni and Sn–Air Aqueous Batteries via Stannite-Ion Electrochemistry, J. Am. Chem. Soc. 2023, 145, 10880.(ESI高被引)
[4] F. Bu, Z. Sun, W. Zhou (共一), Y. Zhang, Y. Chen, B. Ma, X. Liu, P. Liang, C. Zhong, R. Zhao, H. Li, L. Wang, T. Zhang, B. Wang, Z. Zhao, J. Zhang, W. Li, Y. Ibrahim, Y. Hassan, A. Elzatahry *, D. Chao*, D. Zhao*, Reviving Zn0 Dendrites to Electroactive Zn2+ by Mesoporous MXene with Active Edge Sites, J. Am. Chem. Soc. 2023, 145, 24284.
[5]J. Liu, W. Zhou(共一), R. Zhao, Z. Yang, W. Li, D. Chao, S.Z. Qiao, D. Zhao*, Sulfur-Based Aqueous Batteries: Electrochemistry and Strategies, J. Am. Chem. Soc. 2021, 143, 15475. (ESI高被引)
[6]W. Zhou, D. Zhu*, J. He, J. Li, H. Chen, Y. Chen*, D. Chao*, A Scalable Top-Down Strategy toward Practical Metrics of Ni–Zn Aqueous Batteries with Total Energy Densities of 165 Wh/kg and 506 Wh/L, Energy Environ. Sci. 2020, 11(13), 4157.(封面, ESI高被引)
[7] W. Zhou, J. He, D. Zhu*, J. Li, Y. Chen*, Hierarchical NiSe2 Nanosheet Arrays as a Robust Cathode toward Superdurable and Ultrafast Ni–Zn Aqueous Batteries, ACS Appl. Mater. Interfaces 2020, 12, 34931.
[8]D. Chao, W. Zhou, F. Xie, C. Ye, H. Li, M. Jaroniec, S.Z. Qiao*, Roadmap for advanced aqueous batteries: From design of materials to applications, Sci. Adv. 2020, 6, eaba4098. (ESI高被引)
[9] J. Li, W. Zhou (共一), D. Zhu, J. He, C. Wu, Y. Chen*,Ni3S2-coated metal hydride anode with high-power and long-life performance for low-temperatureNi-MH power batteries,Chem. Eng. J. 2020, 379, 122204
[10] D. Chao, W. Zhou (共一), C. Ye, Q. Zhang, Y. Chen, L. Gu, K. Davey, S.Z. Qiao*, An Electrolytic Zn–MnO2 Battery for High‐Voltage and Scalable Energy Storage, Angew. Chem. Int. Ed. 2019, 58, 7823. (ESI高被引)
[11] W. Zhou, D. Zhu, K. Liu, J. Li, C. Wu, Y. Chen*, Long-life Ni-MH batteries with high-power delivery at lower temperatures: Coordination of low-temperature and high-power delivery with cycling life of low-Al AB5-type hydrogen storage alloys, Int. J. Hydrogen Energy 2018, 43, 21464.
[12]W. Zhou, D. Zhu, Z. Tang, C. Wu, L. Huang, Z. Ma, Y. Chen*, Improvement in low-temperature and instantaneous high-rate output performance of Al-free AB5-type hydrogen storage alloy for negative electrode in Ni/MH battery: Effect of thermodynamic and kinetic regulation via partial Mn substituting, J. Power Sources 2017, 343, 11.
[13]W. Zhou, Z. Tang, D. Zhu, Z. Ma, C. Wu, L. Huang, Y. Chen*,Low-temperature and instantaneous high-rate output performance of AB5-type hydrogen storage alloy with duplex surface hot-alkali treatment, J. Alloys Compd. 2017, 692, 364.
[14]W. Zhou, Q. Wang, D. Zhu, C. Wu, L. Huang, Z. Ma, Z. Tang, Y. Chen*, The high-temperature performance of low-cost La-Ni-Fe based hydrogen storage alloys with Si substituting, Int. J. Hydrogen Energy2016,41, 14852.
[15]W. Zhou, Z. Ma, C. Wu, D. Zhu, L. Huang, Y. Chen*, The mechanism of suppressing capacity degradation of high-Al AB5-type hydrogen storage alloys at 60°C, Int. J. Hydrogen Energy 2016, 41, 1801.
[16]W. Zhou, D. Zhu, Q. Wang, C. Wu, Z. Ma, Y. Wu, Y. Chen*, Effects of Al content on the electrochemical properties of La0.78Ce0.22Ni3.95-xCo0.65Mn0.3Si0.1Alx alloys at 20-80 °C, Int. J. Hydrogen Energy 2015, 40, 10200.