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Fields Medical Life Sciences Information Communication Environment Nanotechnology / Materials Energy Manufacturing Technology Social Infrastructure Frontier Liberal Arts Themes Researchers JP Top Nanotechnology / Materials Material Design for Solution of Energy and Environmental Problems by Multi-Physics and Multi-Scale Simulation Material Design for Solution of Energy and Environmental Problems by Multi-Physics and Multi-Scale Simulation JAPANESEINQUIRY update：2022/05/31       NEXT PREV Features and Uniqueness In order to solve the energy and environmental problems, the development of the high-functional and high-performance materials is required in a wide variety of research fields such as fuel cell, Li-ion battery, tribology etc. Especially, the recent material technologies constitute of multi-physics and multi-scale phenomena including chemical reaction, friction, impact, stress, fluid, photon, electron, heat, electric and magnetic fields etc. on nano- and macro-scales. Therefore, Kubo laboratory is pioneering the development of multi-physics and multi-scale simulator on the basis of quantum chemistry and is utilizing supercomputers "Fugaku" and "MASAMUNE-IMR" for realizing the theoretical material design with high-accuracy. Practical Application We utilize our developed multi-physics and multi-scale simulation technology on the basis of quantum chemistry for acceelerating the material development in a wide variety of private companies of automotive, machinery, power, electronics, material, metal, chemistry etc. and then contribute to solving the energy and environmental problems. Keywords computational simulation multi-physics and multi-scale simulation energy and environmental problems material design Researchers Institute for Materials Research Momoji Kubo, ProfessorDoctor of Engineering Laboratory Website researchmap Laboratory Website researchmap Related Information Y. Wang, N. Yamada, J. Xu, J. Zhang, Q. Chen, Y. Ootani, Y. Higuchi, N. Ozawa, M.-I. De Barros Bouchet, J. M. Martin, S. Mori, K. Adachi, and M. Kubo, Triboemission of Hydrocarbon Molecules from Diamond-like Carbon Friction Interface Induces Atomic-Scale Wear, Sci. Adv., 5 (2019) eaax9301.Y. Wang, J. Xu, Y. Ootani, N. Ozawa, K. Adachi, and M. Kubo, Non-Empirical Law for Nanoscale Atom-by-Atom Wear, Adv. Sci. 8 (2021) 2002827. Browsing History Common Keywords Biomodel for Development of Endovascular Treatment [ 太田 信 教授 ] User Who Reviewed This Content Also Reviewed “HYDRIDE" Researches for Energy Applications [ Shin-Ichi Orimo Professor ] [ Hidetoshi Hashizume Professor ] [ Hidemasa Takana Professor ] Research Profiles ©TOHOKU UNIVERSITY How to Use FAQ For Researchers Site Policy [jp] ©TOHOKU UNIVERSITY Fields Medical Life Sciences Information Communication Environment Nanotechnology / Materials Energy Manufacturing Technology Social Infrastructure Frontier Liberal Arts Fields Themes Researchers 日本語 ENGLISH Close