F
Feng Pan
Researcher at Peking University
Publications - 551
Citations - 23640
Feng Pan is an academic researcher from Peking University. The author has contributed to research in topics: Electrolyte & Cathode. The author has an hindex of 63, co-authored 473 publications receiving 14429 citations. Previous affiliations of Feng Pan include École Polytechnique Fédérale de Lausanne & ETH Zurich.
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The role of nanotechnology in the development of battery materials for electric vehicles
TL;DR: An overview of nanostructured materials that are either already commercialized or close to commercialization for hybrid electric vehicle applications, as well as those under development with the potential to meet the requirements for long-range electric vehicles are offered.
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High-Performance Anode Materials for Rechargeable Lithium-Ion Batteries
TL;DR: In this article, the authors present the recent progresses and challenges in discovery of high-performance anode materials for Li-ion batteries related to their applications in future electrical vehicles and grid energy storage.
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Recent advances in zinc anodes for high-performance aqueous Zn-ion batteries
TL;DR: In this paper, the authors highlight the recent advances in Zn anode and outline future opportunities for the development of high-performance zinc metal anodes in aqueous ZIBs.
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Electro‐optic properties of the organic salt 4‐N,N‐dimethylamino‐4′‐N′‐methyl‐stilbazolium tosylate
TL;DR: In this paper, the organic salt 4N,Ndimethylamino (DAST) was shown to be a very interesting material for electro-optic applications in the near infrared, and the electrooptic coefficients were determined in the spectral range of 700 up to 1535 nm using optical samples cut from large high quality bulk crystals.
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In situ quantification of interphasial chemistry in Li-ion battery
Tongchao Liu,Tongchao Liu,Lingpiao Lin,Xuanxuan Bi,Lei-Lei Tian,Kai Yang,Jiajie Liu,Maofan Li,Zonghai Chen,Jun Lu,Khalil Amine,Khalil Amine,Kang Xu,Feng Pan +13 more
TL;DR: It is found that SEI formation starts at graphite edge sites with dimerization of solvated Li+ intercalation between graphite layers, and it is shown that this lithium salt can be re-oxidized, despite the general belief that an SEI is electrochemically inert and its formation irreversible.