Research field (2):
Nuclear fusion
, Earth resource engineering, energy science
Research theme for competitive and other funds (6):
2022 - 2025 リチウム6同位体濃縮の為のハイブリッドカスケーディングシステムの開発
2019 - 2022 Research of lithium-6 isotope enrichment technology by electrodialysis under special voltage profile
2016 - 2019 Study on function sharing type interface structures and demonstration of self-healing function in corrosive environment for advanced blanket systems of fusion reactors
2016 - 2019 Research and Development of Innovative Lithium Isotope Separation Using an Ionic Superconductor with Lithium-6 Adsorption
2016 - 2019 Development of CO2 absorption and storage materials by optimization of ceramic synthesis process
2015 - 2018 Elucidation and control of fuel electrode reaction of solid oxide fuel cells operated by directly introducing gasoline
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Papers (77):
Kiyoto Shin-mura, Kazuya Sasaki, Eiki Niwa, Shunsuke Honda, Hirofumi Tazoe. Voltage effects on lithium extraction/recovery via electrochemical pumping using a La0.57Li0.29TiO3 electrolyte. Sustainable Materials and Technologies. 2023. e00779-e00779
Satoru Kikuchi, Takashi Noro, Kiyoto Shin-mura, Kazuya Sasaki. Li vaporization behavior and mechanical properties of Li8ZrO6 under high temperature reducing atmosphere. Fusion Engineering and Design. 2023. 193. 113793-113793
Kazuya Sasaki, Kiyoto Shin-mura, Shunsuke Honda, Hirofumi Tazoe, Eiki Niwa. A three-electrode dual-power-supply electrochemical pumping system for ultrafast high-energy-efficiency lithium extraction and recovery. 2023
Kazuya Sasaki, Ikuma Takahashi, Kodai Kuramoto, Kiyoto Shin-Mura. A high-performance Ni-CeO 2 /Ni/Ni-Y 2 O 3 ·zrO 2 three-layer anode for direct iso-octane feeding of solid oxide fuel cells. Royal Society Open Science. 2022. 9. 7
Kiyoto Shin-mura, Ryoya Tokuyoshi, Hirofumi Tazoe, Kazuya Sasaki. Temperature effect on lithium isotope separation by electrodialysis using La0.57Li0.29TiO3 electrolyte. FUSION ENGINEERING AND DESIGN. 2021. 171
