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
Electron and Ion Co-Conductive Catalyst Achieving Instant Transformation of Lithium Polysulfide towards Li2S
Xiaoge Hao,Xiaoge Hao,Jiabin Ma,Xing Cheng,Guiming Zhong,Jin-Lin Yang,Ling Huang,Huajin Ling,Chen Lai,Wei Lv,Feiyu Kang,Xueliang Sun,Yan-Bing He +12 more
TL;DR: In this article, a unique electron and ion co-conductive catalyst of carbon-coated Li1.4 Al0.4 Ti1.6 (PO4 )3 (C@LATP) is developed, which not only possesses strong adsorption to LiPSs, but also promotes the instantaneous conversion reaction of LiSs to Li2 S.
From cotton to functional flexible transparent film for printable and flexible micro-supercapacitor with strong bonding interface
Wenjie Zhang,Bohan Li,Ruitao Lv,Huaming Li,Yu Chen Weng,Wanci Shen,Feiyu Kang,Zheng-Hong Huang +7 more
TL;DR: In this paper , a flexible transparent film is transformed from macroscopic cotton fibers into flexible transparent transparent film by deconstructing them into microscopic fibers, which can then be used to make flexible transparent films.
Experiments and modeling of thermal conductivity of flake graphite/polymer composites affected by adding carbon-based nano-fillers
Shaoxin Zhou,Jinzao Xu,Quan-Hong Yang,Sum Wai Chiang,Baohua Li,Hongda Du,Chengjun Xu,Feiyu Kang +7 more
TL;DR: In this article, the in-plane thermal conductivities of NFG/polymer composites with carbon-based nano-fillers including carbon black, carbon nanotube (CNT) and graphene were measured.
Ordered mesoporous carbon nanospheres as electrode materials for high-performance supercapacitors
TL;DR: Ordered mesoporous carbon nanospheres (OMCNS) were prepared through a facile soft-template method and used as electrode materials for high-performance supercapacitors as discussed by the authors.
Flexible asymmetric supercapacitors based on ultrathin two-dimensional nanosheets with outstanding electrochemical performance and aesthetic property.
TL;DR: Flexible asymmetric supercapacitors with excellent electrochemical performance and aesthetic property are realized by using ultrathin two-dimensional MnO2 and graphene nanosheets as cathode and anode materials, respectively, using a soft template method for the first time.