晁栋梁
晁栋梁
博士生导师、科睿唯安高被引科学家
入选上海市、国家高层次引进人才计划
担任国际能源刊物Materials Today Energy的副主编
于新加坡南洋理工大学获得博士学位,2016年美国加州大学洛杉矶分校访问学者,2017年-2020年期间分别在南洋理工大学进行博士后研究、澳大利亚阿德莱德大学担任高级研究员工作,于2020年10月全职加入复旦大学先进材料实验室。主要从事新型高安全、低成本、可大规模储能器件的电荷存储机理和应用研究。
曾获得《麻省理工科技评论》-“35岁以下科技创新”奖、澳大利亚研究理事会优秀青年基金、澳大利亚研究新星奖、RSC优秀研究员奖、Springer优秀图书奖、国家优秀自费留学生奖等。目前,出版英文专著1部,发表SCI期刊论文100余篇,1/4以上入选ESI高被引论文,引用10000余次,H指数为46 (updated on 03/2021)。
联系方式:
• E-mail: chaod@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536
• 更多信息:赵东元院士/晁栋梁教授储能团队博士后招聘,
http://www.hr.fudan.edu.cn/e5/77/c4841a255351/page.htm
研究兴趣:
新型高安全、低成本、可大规模储能器件的电荷存储机理和应用研究:
高能水系电池反应电对开发及其器件化;
高功率(快充/放)储能器件及其赝电容行为研究;
新型孔材料的可控合成及其电化学储能机理探究;
近年代表论文:
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): 4157-4167. (Cover paper)
D. Chao*, S. Qiao*, Toward High-Voltage Aqueous Batteries: Super- or Low-Concentrated Electrolyte? Joule, 2020, 4, 1846-1851.
D. Chao, C. Ye, F. Xie, W. Zhou, Q. Zhang, Q. Gu, K. Davey, L. Gu, and S.Z. Qiao*, Atomic Engineering Catalyzed MnO2 Electrolysis Kinetics for a Hybrid Aqueous Battery with High Power and Energy Density, Adv. Mater., 202001894 (2020). (Cover paper)
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,aba4098. (ESI Highly Cited paper)
D. Chao, W. Zhou, C. Ye, Q. Zhang, Y. Chen, L. Gu, K. Davey, S.Z. Qiao*, An Electrolytic Zn-MnO2 Battery Demonstrated for High-Voltage and Scalable Energy Storage, Angew. Chem. Int. Ed., 58, 7823-7828 (2019). (ESI Hot paper)
D. Chao, C. Zhu, M. Song, P. Liang, X. Zhang, N. H. Tiep, H. Zhao, J. Wang, R. Wang, H. Zhang, H. J. Fan*, A High-Rate and Stable Quasi-Solid-State Zinc-Ion Battery with Novel 2D Layered Zinc Orthovanadate Array, Adv. Mater., 1803131 (2018). (ESI Highly Cited paper)
C. Zhu, D. Gao, J. Ding, D. Chao*, J. Wang*, TMD-based Highly Efficient Electrocatalysts Developed by Combined Computational and Experimental Approaches, Chem. Soc. Rev., 47, 4235 (2018). (ESI Highly Cited paper, Cover paper)
D. Chao, B. Ouyang, P. Liang, T.T.T. Huong, X. Xia, R.S. Rawat, H. J. Fan*, C-Plasma of Hierarchical Graphene Survives SnS Bundles for Ultrastable and High Volumetric Na-Ion Storage, Adv. Mater., 1804833 (2018). (Cover paper)
D. Chao, C. Zhu, P. Yang, X. Xia, J. Liu, J. Wang, X. Fan, S. Savilov, J. Lin, H. J. Fan, Z. Shen*, Array of Nanosheets Render Ultrafast and High Capacity Na-ion Storage by Tunable Pseudocapacitance, Nat. Commun., 12122 (2016). (ESI HOT paper)
D. Chao, X. Liu, Z. Chen, J. Lin, S. Savilov, Z. Shen*, Pseudocapacitive Na-Ion Storage Boosts High-Rate and Areal Capacity of Self-Branched 2D Layered Metal Chalcogenide Nanoarrays, ACS Nano, 10, 10211 (2016). (ESI HOT paper)
D. Chao, C. Zhu, X. Xia, J. Liu, X. Zhang, J. Wang, P. Liang, J. Lin, H. Zhang, Z. Shen*, H. J. Fan*, Graphene Quantum Dots Coated VO2 Arrays for Highly Durable Electrodes for Li and Na Ion Batteries,Nano Lett., 15, 565 (2015). (ESI Highly Cited paper)
D. Chao, X. Xia, J. Liu, Z. Fan, N. Chin, J. Lin, H. Zhang, Z. Shen*, H. J. Fan*, A V2O5/Conductive-Polymer Core/Shell Nanobelt Array on Three-Dimensional Graphite Foam: A High-Rate, Ultrastable, and Freestanding Cathode for Lithium-Ion Batteries,Adv. Mater., 26, 5794 (2014). (ESI Highly Cited paper, Cover paper)
Authored book
D. Chao, Graphene Network Scaffolded Flexible Electrodes—From Lithium to Sodium Ion Batteries, Springer-Nature, Dec. 2018,ISBN 9811330808, eBook & Hardback.