师资队伍
实验技术人员
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汪敏

汪敏,正高级实验师,硕士生导师,博士毕业于清华大学化学工程系,2003年8月入复旦大学先进材料实验室工作,负责液体核磁共振谱仪和低温磁性测量系统。

研究方向:1. 储能材料、器件和性能研究;2. 轻质宽频耐高温吸波材料及其吸波机理。

联系方式:

电话:021-31249933

电子邮件: minwang@fudan.edu.cn

地址:上海市杨浦区淞沪路2205号复旦大学新江湾校区先进材料楼122室

 

近年通讯作者论文:

  1. Ferromagnetic Co20Ni80 nanoparticles encapsulated inside reduced graphene oxide layers with superior microwave absorption performance. Journal of Materials Chemistry C, 2019, 7, 2943-2953.

  1. A Flexible Film toward High-Performance Lithium Storage: Designing Nanosheet-Assembled Hollow Single-Hole Ni–Co–Mn–O Spheres with Oxygen Vacancy Embedded in 3D Carbon Nanotube/Graphene Network. Small, 2019, 15, 1901343.

  2. Flexible Graphene-Wrapped Carbon Nanotube/Graphene@MnO2 3D Multilevel Porous Film for High-Performance Lithium-Ion Batteries. Small, 2018, 14, 1801007.

  3. Hierarchical Fe2O3@C@MnO2@C Multishell Nanocomposites for High Performance Lithium Ion Batteries and Catalysts. Langmuir, 2018, 34, 5225-5233.

  4. Insight into the atomic structure of Li2MnO3 in Li-rich Mn-based cathode materials and the impact of its atomic arrangement on electrochemical performance. Journal of Materials Chemistry A, 2017, 5, 11214-11223.

  5. An intercalated graphene/(molybdenum disulfide) hybrid fiber for capacitive energy storage. Journal of Materials Chemistry A, 2017, 5, 925-930.

  6. Microwave sintering and in-situ transmission electron microscopy heating study of Li1.2(Mn0.53Co0.27)O2 with improved electrochemical performance. Journal of Power Sources, 2016, 326, 104-111.

  7. An Aligned and Laminated Nanostructured Carbon Hybrid Cathode for High-Performance Lithium–Sulfur Batteries.Angew. Chem. Int. Ed., 2015, 54, 10539-10544.

  8. Predominant orientation growth of Li1.2(Mn0.4Co0.4)O2 cathode materials by NaOH compound molten salt method and their enhanced electrochemical performance. Journal of Materials Chemistry A, 2014, 2, 15200-15208.

  9. Modulating the Li+/Ni2+ replacement and electrochemical performance optimizing of layered lithium-rich Li1.2Ni0.2Mn0.6O2 by minor Co dopant. Journal of Materials Chemistry A, 2014, 2, 9656-9665.

  10. Direct evidence of antisite defects in LiFe0.5Mn0.5PO4 via atomic-level HAADF-EELS. Journal of Materials Chemistry A, 2013, 1, 8775-8781.