Feiyu Kang
Tsinghua University
1016 Papers
4.1K Citations
Feiyu Kang is an academic researcher from Tsinghua University. The author has contributed to research in topics: Anode & Electrolyte. The author has an hindex of 106, co-authored 875 publications. Previous affiliations of Feiyu Kang include Sun Yat-sen University & Hokkaido University.
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Papers
Universal Descriptor for Large-Scale Screening of High-Performance MXene-Based Materials for Energy Storage and Conversion
TL;DR: In this paper, the trend of hydrogen evolution reaction (HER) performance of oxygen-terminated MXenes was investigated using density functional theory calculations, and a suitable HER descriptor, oxygen vacancy formation energy (Ef), which scales linearly with the adsorption free energy of hydrogen, ΔGH, was proposed.
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Nitrate Additives Coordinated with Crown Ether Stabilize Lithium Metal Anodes in Carbonate Electrolyte
Sichen Gu,Siwei Zhang,Junwei Han,Yaqian Deng,Chong Luo,Guangmin Zhou,Yan-Bing He,Guodan Wei,Feiyu Kang,Wei Lv,Quan-Hong Yang +10 more
TL;DR: In this article, a Rubidium nitrate (RbNO3) additive coordinated with 18crown−6 crown ether is proposed to stabilize the lithium metal anode in the carbonate electrolyte.
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Nonflammable, localized high-concentration electrolyte towards a high-safety lithium metal battery
Chen Zhang,Sichen Gu,Danfeng Zhang,Jiabin Ma,Han Zheng,Muyun Zheng,Ruitao Lv,Kuang Yu,Junqiao Wu,Xiaomin Wang,Quan-Hong Yang,Feiyu Kang,Wei Chao Lv +12 more
TL;DR: In this article , an ether-based, non-flammable localized high-concentration electrolyte (LHCE) with fire-retardant fluorinated phosphazene as a multifunctional diluent was proposed.
81
Seeding lithium seeds towards uniform lithium deposition for stable lithium metal anodes
Zhijia Huang,Guangmin Zhou,Wei Lv,Yaqian Deng,Yunbo Zhang,Chen Zhang,Feiyu Kang,Quan-Hong Yang +7 more
TL;DR: In this paper, a simple method to plant the ultrafine Li seeds with uniform and dense distribution on the electrode surface by a fast deposition with very high current density, which effectively suppresses the dendrite growth by the seed directed deposition.
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Enhanced performance of interconnected LiFePO4/C microspheres with excellent multiple conductive network and subtle mesoporous structure
TL;DR: LiFePO 4 /C microspheres with an excellent multiple conductive network are synthesized using iron (III) acrylate as both iron and carbon sources in this paper, which is a promising cathode material for rechargeable lithium ion power batteries.
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