T
Tsuyoshi Murata
Researcher at Aichi Institute of Technology
Publications - 87
Citations - 1628
Tsuyoshi Murata is an academic researcher from Aichi Institute of Technology. The author has contributed to research in topics: Hydrogen bond & Molecule. The author has an hindex of 18, co-authored 81 publications receiving 1406 citations. Previous affiliations of Tsuyoshi Murata include Kumamoto University & Osaka City University.
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Organic tailored batteries materials using stable open-shell molecules with degenerate frontier orbitals
Yasushi Morita,Shinsuke Nishida,Shinsuke Nishida,Tsuyoshi Murata,Miki Moriguchi,Akira Ueda,Masaharu Satoh,Kazunori Arifuku,Kazunobu Sato,Takeji Takui +9 more
TL;DR: This work demonstrates organic tailored batteries with high capacity by using organic molecules with degenerate molecular orbitals (MOs) as electrode-active materials, exceeding those delivered by Li-ion batteries.
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Hydrogen-bond interaction in organic conductors: redox activation, molecular recognition, structural regulation, and proton transfer in donor-acceptor charge-transfer complexes of TTF-imidazole.
Tsuyoshi Murata,Yasushi Morita,Yumi Yakiyama,Kozo Fukui,Hideki Yamochi,Gunzi Saito,Kazuhiro Nakasuji +6 more
TL;DR: Hydrogen-bond interaction in donor-acceptor charge-transfer complexes of TTF-imidazole demonstrated the electronic effects in terms of control of component ratio and redox activation and produced a number of highly conductive complexes with various acceptors having a wide range of electron- acceptance ability.
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A Purely Organic Molecular Metal Based on a Hydrogen-Bonded Charge-Transfer Complex: Crystal Structure and Electronic Properties of TTF-Imidazole–p-Chloranil
Tsuyoshi Murata,Yasushi Morita,Yasushi Morita,Kozo Fukui,Kazunobu Sato,Daisuke Shiomi,Takeji Takui,Mitsuhiko Maesato,Hideki Yamochi,Gunzi Saito,Kazuhiro Nakasuji +10 more
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Triple-stranded metallo-helicates addressable as Lloyd's electron spin qubits.
Yasushi Morita,Yumi Yakiyama,Shigeaki Nakazawa,Tsuyoshi Murata,Tomoaki Ise,Daisuke Hashizume,Daisuke Shiomi,Kazunobu Sato,Masahiro Kitagawa,Kazuhiro Nakasuji,Takeji Takui +10 more
TL;DR: The experiments have proven the practical capability of oligo(imidazole)s as a component of Lloyd's system which has nonequivalent g-tensors within the helicate (g-engineering), and links supramolecular chemistry to the field of QCs/QIPSs.
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Cooperation of Hydrogen-Bond and Charge-Transfer Interactions in Molecular Complexes in the Solid State
TL;DR: In this article, the development of charge transfer complexes with well-defined assembled structures based on the cooperation of hydrogen-bond and charge transfer interactions is studied, and a charge transfer complex with well defined assembled structures is presented.