Research in Lab
- 計算機マテリアルデザイン: Computaional Materials Design
- 「多元素ナノ合金触媒の原子・電子レベル物性理論解析」
"Atomic and electronic level analysis of multi-element nano-alloy catalysts by condensed matter theory"
「革新的多元素ナノ合金触媒・反応場活用による省エネ地域資源循環を実現する技術開発」 "Technology development to realize energy conservation and regional resource recycling by use of innovative multi-element nano-alloy catalysts and chemical reaction technologies(Kyoto University)”
supported by Ministry of the Environment "FY 2022 Demonstration Project of Innovative Catalyst Technology for Decarbonization through Regional Resource Recycling."
- 「元素間融合を支える標準理論の構築と機能創成デザイン」
"Establishment of the Inter-Element-Fusion theory and its functional design applications"
「元素間融合を基軸とする物質開発と応用展開」
supported by JST ACCEL project "Development of new materials and their applications on the Basis of the Inter-Element-Fusion Strategy” (JPMJAC1501)
- 「メタン転換反応における触媒表面状態と反応過程の理論解析」
研究領域:「多様な天然炭素資源の活用に資する革新的触媒と創出技術」
"Innovative Catalysts and Creation Technologies for the Utilization of Diverse Natural Carbon Resources"
研究課題名:「原子分解能その場観察解析に基づく触媒機能の原理解明と革新的触媒創製」
supported by JST CREST project:"In-situ atomic characterization of catalytic reactions for the development of Innovative Catalysts (No.17942262)"
- 「分子性架橋デバイスのデザインに関する理論的研究」
"Functional Design by Molecular bridge systems"
supported by MEXT Grants-in-Aid for Scientific Research Programs (No. 16K04876)
- 原子の量子ダイナミクス: Quantum Dynamics of Atomic Motion
- 第一原理量子ダイナミクス計算コード "Naniwa"の開発
Development of the first principles quantum dynamics code, "Naniwa"
supported by NEDO Project "R&D Towards Realizing an Innovative Energy Saving Hydrogen Society based on Quantum Dynamics Applications"
- プロトン・ミュオンで探る新物性と量子ダイナミクス
"Investigation of new physical properties and quantum dynamics using protons and muons"
supported by MEXT Grants-in-Aid for Scientific Research Programs on Innovative Areas:
"Materials Design through Computics: Complex Correlation and Non-equilibrium Dynamics" &
"Frontier of Materials, Life and Particle Science Explored by Ultra Slow Muon Microscope"
- 水素拡散における表面効果と量子効果の解明
“Surface and Quantum Effects on hydrogen diffusion”
supported by MEXT Grants-in-Aid for Scientific Research Programs on Scientific Research (A).2021-2024 (21H04650)