HOME > Profile > GAO, Run-Sheng
- Address
- 305-0047 1-2-1 Sengen Tsukuba Ibaraki JAPAN [Access]
External affiliations
- Center for Green Research on Energy and Environmental Materials
Research
- Keywords
Energy conversion and storage; Electrode design
PublicationsNIMS affiliated publications since 2004.
Research papers
- Runsheng Gao, Jie Tang, Xiaoliang Yu, Shuai Tang, Kiyoshi Ozawa, Taizo Sasaki, Lu-Chang Qin. In situ synthesis of MOF-derived carbon shells for silicon anode with improved lithium-ion storage. Nano Energy. 70 (2020) 104444 10.1016/j.nanoen.2019.104444
- Runsheng Gao, Jie Tang, Xiaoliang Yu, Shiqi Lin, Kun Zhang, Lu‐Chang Qin. Layered Silicon‐Based Nanosheets as Electrode for 4 V High‐Performance Supercapacitor. Advanced Functional Materials. 30 [27] (2020) 2002200 10.1002/adfm.202002200
- Runsheng Gao, Jie Tang, Shuai Tang, Kun Zhang, Kiyoshi Ozawa, Lu-Chang Qin. Biomineralization-inspired: rapid preparation of a silicon-based composite as a high-performance lithium-ion battery anode. Journal of Materials Chemistry A. 9 [19] (2021) 11614-11622 10.1039/d1ta01919h
Presentations
- GAO, Run-Sheng, TANG, Jie, YU, Xiaoliang, ZHANG, Kun, CHIU, Ta-Wei, LIN, Shiqi, ZHANG, Wanli, KANG, Luhao, Lu-Chang Qin. Preparation of Layered Si Materials as Anode for Lithium-Ion Batteries. RECENT PROGRESS IN GRAPHENE & 2D MATERIALS RESEARCH. 2019
- ZHANG, Kun, TANG, Jie, GAO, Run-Sheng, YU, Xiaoliang, CHIU, Ta-Wei, LIN, Shiqi, ZHANG, Wanli, KANG, Luhao, Lu-Chang Qin. Production of Few-Layered Graphene by Enhanced Shear Exfoliation of Graphite in A High Pressure Fluid. RECENT PROGRESS IN GRAPHENE & 2D MATERIALS RESEARCH. 2019
- YU, Xiaoliang, TANG, Jie, ZHANG, Kun, GAO, Run-Sheng, CHIU, Ta-Wei, LIN, Shiqi, ZHANG, Wanli, KANG, Luhao, Lu-Chang Qin. Fabrication of Graphene/MoS2 Alternately Stacked Structure for Enhanced Lithium Storage. RECENT PROGRESS IN GRAPHENE & 2D MATERIALS RESEARCH. 2019
Patents
- No: 2021166163 アノード電極材料、その製造方法、および、それを用いたリチウムイオン二次電池 (2021)
- No: 2022013012 複合体、その製造方法、それを用いたアノード電極材料、および、それを用いたリチウムイオン二次電池 (2022)