MATSUO MOTOAKI
また、燃料電池以外にもリチウムイオン二次電池などの蓄電池に水素化物を応用する研究にも取り組みます。現在携帯電話やPCに使用されているリチウムイオン二次電池には、有機溶媒が電解質として利用されています。この有機溶媒の代わりに水素化物を電解質に応用したいと考えています。水素化物を固体電解質として応用できれば、リチウムイオン二次電池のエネルギー密度と安全性の向上に貢献できるとともに、次世代蓄電池として期待されているナトリウムイオン二次電池やマグネシウムイオン二次電池の実現を後押することができます。
Graduating School 【 display / non-display 】
-
Graduating School:Tohoku University
Faculty:Faculty of Engineering
Course / Major:応用物理学科
Kind of school:University
Date of graduation:1999.03
Completion status:Graduated
Country location code:Japan
Graduate School 【 display / non-display 】
-
Graduate school:Tohoku University
Department:Graduate School, Division of Environmental Science
Course completed:Doctor's Course
Date of completion:2008.03
Completion status:Completed
Country:Japan -
Graduate school:Tohoku University
Department:Graduate School, Division of Engineering
Course:応用物理学
Course completed:Master's Course
Date of completion:2001.03
Completion status:Completed
Country:Japan
Degree 【 display / non-display 】
-
Degree name:博士(学術)
Classified degree field:Nanotechnology/Materials / Structural materials and functional materials
Conferring institution:Tohoku University
Acquisition way:Coursework
Date of acquisition:2008.03 -
Degree name:修士(工学)
Classified degree field:Nanotechnology/Materials / Optical engineering and photon science
Conferring institution:Tohoku University
Acquisition way:Coursework
Date of acquisition:2001.03 -
Degree name:学士(工学)
Classified degree field:Nanotechnology/Materials / Optical engineering and photon science
Conferring institution:Tohoku University
Acquisition way:Coursework
Date of acquisition:1998.03
Research Areas 【 display / non-display 】
-
Research field:Nanotechnology/Materials / Structural materials and functional materials
Papers 【 display / non-display 】
-
Language: English
Title: Thermodynamic Properties and Reversible Hydrogenation of LiBH4–Mg2FeH6 Composite Materials
Journal name: Inorganics vol.5 (4) (p.81 - 92)
Date of publication: 2017.11
Author(s): Guanqiao Li, Motoaki Matsuo, Shigeyuki Takagi, Anna-Lisa Chaudhary, Toyoto Sato, Martin Dornheim, Shin-ichi OrimoDOI: 10.3390/inorganics5040081
Type of publication: Research paper (scientific journal)
Co-author classification: Multiple Authorship
Research Projects 【 display / non-display 】
-
Research category:Grant-in-Aid for Scientific Research(C)
Project year:2021.04 - 2024.03
Title:水素密度制御を利用した高速イオン伝導体の開発
-
Research category:Grant-in-Aid for Scientific Research(B)
Project year:2016.04 - 2019.03
Title:構造最適化による錯体水素化物の高速イオン伝導機能の発展