周万海，复旦大学先进材料实验室、水系电池研究中心副研究员。入选上海市东方英才青年项目、上海市青年科技英才、全国创新创业优秀博士后、科睿唯安高被引科学家(2025年)。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），2023年1月博士后出站留校。主要从事功能介孔能源材料、新型多电子水系电化学、原位电化学表征、以及高比能水系电池、快充放钠离子电池器件化与应用研究。

发表论文80余篇（19篇入选ESI高被引），其中，近5年以第一/通讯作者在Nat. Rev. Electr. Eng.、Joule、Adv. Mater.、J. Am. Chem. Soc.、Angew. Chem. Int. Ed.、Natl. Sci. Rev.、Energy Environ. Sci.、eScience等期刊发表论文20余篇，论文总被引用8500余次，H指数33 (updated on 3/2026)，国家发明专利10余项。主持国家自然科学基金青年基金项目、科技部国家重点研发计划子课题等省部级项目9项，曾获得第二届全国博士后创新创业大赛金奖、中国国际大学生创新大赛(2023全国银奖、2024/2025上海市银奖)优秀指导老师、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”等。担任Nano-Micro Lett.、Chinese Chem. Lett.、Nano Res. Energy、Carbon Neutralization、Mater. Futures等期刊青年编委。

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室

代表性论文：

[1] Y. Wu, W. Zhou*, H. Jin, G. Li, X. Wang, L. Wang, H. Du, Z. Sun, S. Ding, T. Zhang, J. Zhang, F. Bu, Z. Zhao, C. Ye, W. Li, D. Chao*, D. Zhao*, Ultrathin Mesoporous Ionic Brushes Separator Enables Fast and Durable Zinc‐Metal Aqueous Batteries,Adv. Mater. 2026, 38, e23619.

[2] P. Zeng, W. Zhou*, B. Su, Y. Hu, C. Du, X. Li, C. Yuan, G. Liu, X. Zhao, W. Luo, R. Ahuja, Q. Wang, D. Chao*, L. Zhang*, Regulating lower hubbard band for tandem electrocatalytic lithium polysulfides conversion, eScience 2026, 6, 100497.

[3] Y. Huang, K. Lu, J. Dong, X. Wang, J. Li, Z. Gong, Y. He, H. Jia, G. Yuan, P. Wang, H. Tan*, L. Huang*, D. Chao, W. Zhou*, Chelate Reconstruction with a H₂O-Poor and Zinc-Rich Interface toward Robust Anti-Corrosion Ah-Level Zinc Aqueous Batteries, Energy Storage Mater. 2026, 84, 104821

[4] L. Wang, B. Zhang, W. Zhou*, H. Li, H. Dong, H. Jin, Z. Yang, W. Li, Z. Zhao, D. Zhao*, D. Chao*, Cation-in-Mesopore Complex for 20 Ah-Level Aqueous Battery, Angew. Chem. Int. Ed. 2025, 64, e202501010.

[5] X. Wang, W. Zhou*, L. Wang, Y. Zhang, S. Li, X. Li, Z. Zhao, T. Zhang, H. Jin, X. Song, P. Liang, B. Zhang*, D. Zhao, D. Chao*, Benchmarking Corrosion with Anionic Polarity Index for Stable and Fast Aqueous Batteries Even in Low-Concentration Electrolyte, Adv. Mater. 2025, 37, 2501049.

[6] Y. Zhang, W. Zhou*, B. Wang, T. Zhang, X. Yu, X. Li, G. Li, H. Jin, M. Chen, W. Li, D. Zhao, X. Liu*, D. Chao*, Amorphization Stabilizes Te-based Aqueous Batteries via Confining Free Water, Angew. Chem. Int. Ed. 2025, 64, e202424056.

[7] H. Tan, K. Lu, G. Yuan, X. Wang, Y. Huang, P. Wang, J. Ye, W. Zhou*, L. Huang*, D. Chao*, Polydentate Ligand Stabilizes Electrolyte and Interface Layer for Anti-Corrosion and Selective-Deposited Zn Metal Aqueous Batteries, Adv. Funct. Mater. 2025, 35, 2423945.

[8] Q. Wang, W. Zhou*, Y. Zhang, H. Jin, X. Li, T. Zhang, B. Wang, R. Zhao, J. Zhang, W. Li, Y. Qiao, C. Jia, D. Zhao and D. Chao*, Rescue dead MnO₂ for stable electrolytic Zn-Mn redox-flow battery: a metric of mediated and catalytic kinetics. Natl. Sci. Rev. 2024, 11, nwae230.

[9] B. Wang⁺, W. Zhou⁺, Y. Zhang⁺, T. Zhang, X. Li, Y. Feng, R. Zhao, W. Li, A. Elzatahry, Y. Hassan, D. Zhao, D. Chao*, An energetic K⁺-S aqueous battery with 96% sulfur redox utilization, Joule 2024, 8, 2033.

[10] W. Zhou, S. Ding, D. Zhao, D. Chao*, An energetic Sn metal aqueous battery, Joule2023, 7, 1104.

[11] W. Zhou, H. Fan, D. Zhao, D. Chao*, Cathodic electrolyte engineering toward durable Zn-Mn aqueous batteries, Natl. Sci. Rev.2023, nwad265.

[12] 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, 10880-10889.

[13] F. Bu⁺, Z. Sun⁺, W. Zhou⁺, 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, 24284–24293.

[14] J. Liu⁺, W. Zhou⁺, R. Zhao, Z. Yang, W. Li, D. Chao, S. Qiao, D. Zhao*, Sulfur-based aqueous batteries: electrochemistry and strategies, J. Am. Chem. Soc. 2021, 143, 38, 15475-15489.

[15] 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 W h kg⁻¹ and 506 W h L⁻¹, Energy Environ. Sci., 2020, 13, 4157-4167.

[16] D. Chao⁺,W. Zhou⁺, C. Ye, Q. Zhang, Y. Chen, L. Gu, K. Davey, S. Qiao*, An electrolytic Zn-MnO₂ battery for high‐voltage and scalable energy storage, Angew. Chem. Int. Ed. 2019, 58, 7823.