2018-2022 Grant-in-Aid for Scientific Research on Innovative Areas, MEXT, Japan

Hydrogenomics

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Open Research 2

B01

High Densification Ability and Interfacial Localizability

Takahiro KONDO
University of Tsukuba
Surface Science, Two-dimensional materials
Creation of high-density hydrogen storage materials using hydrogen boride nanocomposite
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Yuki NAGAO
Japan Advanced Institute of Science and Technology
Surface Polymer Chemistry
Molecular orientation and proton transport of polymers at the electrode and active material interfaces
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Mari EINAGA
Osaka University
High-Pressure Science
Search for high-temperature superconductors using sulfur hydride as a parent compound
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B02

Fast Migration Ability and High Activation Ability

Zen MAENO
Kogakuin University
Catalyic Chemistry
Structural control on surface hydrides in zeolites for development of Pt-group free dehydrogenation catalysts
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Teppei YAMADA
University of Tokyo
Electrochemistry, Coordination Chemistry
Creation of a thermoelectric device with proton-coupled electron transfer reaction
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Hiroshi MASAI
University of Tokyo
Polymer Material
Concerted reactivity and functionalities on polymer materials between proton and photon
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Masaaki KITANO
Tokyo Institute of Technology
Catalysis
Fabrication of active catalyst interfaces using lattice nitrogen and hydrogen and elucidation of their reaction mechanism
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Yasuhiro OHKI
Kyoto University
Coordination Chemistry
Synthesis and Reactions of Bio-inspired Molecular Metal-Hydride Compounds
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Hiroyuki S. KATO
Osaka University
Surface Physical Chemistry
Creation of electron-proton correlation characteristics in the self-assembled bilayer
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Takumi NAKANISHI
Kyushu University
Coordination Chemistry
Development of Multi-functional Molecular Materials Based on Proton-spin Coupling
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Tokuhisa KAWAWAKI
Tokyo University of Science
Nanomaterials Chemistry
Creation of metal cluster-based metal-organic framework for hydrogen evolution electrocatalysts
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A05

Advanced Measurement and Simulation Techniques

Kenji OHOYAMA
Ibaraki University
Neutron Science, Condensed Matter Physics
Observation of isolated hydrogen in materials : Application of neutron holography
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Yuta HORI
University of Tsukuba
Theoretical Chemistry, Computational Chemistry
Theoretical development of biohydrogenomics based on hydrogen activation and transport
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Masanori TACHIKAWA
Yokohama City University
Quantum Chemistry, Computational Chemistry
Development of multicomponent quantum chemistry methods for accurate prediction and elucidation of hydrogen-functional mechanism
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Takahiro ISHIKAWA
University of Tokyo
Computational materials science
Search for room-temperature superconductivity in the La-B-N-H system
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Satoshi NAKANO
National Institute for Materials Science
high-pressure material science
Investigation of novel high-density/high-coordination hydrides by reaction with Mbar-pressure/high-temperature hydrogen
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【Management support】

TOHOKU UNIVERSITY
Tel:022-215-2093
Email:secretary@hydrogenomics.jp

【Outreach】

Tokyo Institute of Technology
Tel:03-5734-2636
Email:outreach@hydrogenomics.jp
Hydrogenomics