C
Chih-Yao Chen
Researcher at National Institute of Advanced Industrial Science and Technology
Publications - 48
Citations - 1362
Chih-Yao Chen is an academic researcher from National Institute of Advanced Industrial Science and Technology. The author has contributed to research in topics: Ionic liquid & Electrolyte. The author has an hindex of 18, co-authored 47 publications receiving 963 citations. Previous affiliations of Chih-Yao Chen include National Cheng Kung University & Osaka University.
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A room-temperature molten hydrate electrolyte for rechargeable zinc–air batteries
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Advances in sodium secondary batteries utilizing ionic liquid electrolytes
Kazuhiko Matsumoto,Kazuhiko Matsumoto,Jinkwang Hwang,Shubham Kaushik,Chih-Yao Chen,Rika Hagiwara,Rika Hagiwara +6 more
TL;DR: A comprehensive review of the recent advances in the development of positive and negative electrode materials for Na secondary batteries can be found in this paper, where the fundamental properties of ionic liquids (ILs) and the design strategies employed to facilitate their application in batteries are introduced.
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Electrochemical and structural investigation of NaCrO2 as a positive electrode for sodium secondary battery using inorganic ionic liquid NaFSA–KFSA
Chih-Yao Chen,Kazuhiko Matsumoto,Toshiyuki Nohira,Rika Hagiwara,Atsushi Fukunaga,Atsushi Fukunaga,Shoichiro Sakai,Koji Nitta,Shinji Inazawa +8 more
TL;DR: In this article, the performance of NaCrO2 as a positive electrode material for an intermediate-temperature sodium secondary battery was evaluated in an inorganic ionic liquid, NaFSA-KFSA (FSA=bis(fluorosulfonyl)amide), at 363 K.
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Pyrophosphate Na2FeP2O7 as a low-cost and high-performance positive electrode material for sodium secondary batteries utilizing an inorganic ionic liquid
Chih-Yao Chen,Kazuhiko Matsumoto,Toshiyuki Nohira,Rika Hagiwara,Yuki Orikasa,Yoshiharu Uchimoto +5 more
TL;DR: In this paper, the performance of a Na 2 FeP 2 O 7 positive electrode has been evaluated in an inorganic ionic liquid NaFSA-KFSA (FSA=bis(fluorosulfonyl)amide) at 363 K.
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Tightly connected MnO2–graphene with tunable energy density and power density for supercapacitor applications
TL;DR: In this article, MnO2 nanoparticles uniformly distributed and tightly anchored on graphene are prepared using an ethanol-assisted graphene sacrifice reduction method, producing composite electrodes with tunable energy density (up to 12.6 Wh kg−1) and power density ( up to 171 kW kg− 1) via rational design of the oxide/graphene ratio.