M
Mitsuhiko Maesato
Researcher at Kyoto University
Publications - 112
Citations - 2619
Mitsuhiko Maesato is an academic researcher from Kyoto University. The author has contributed to research in topics: Mott insulator & Antiferromagnetism. The author has an hindex of 20, co-authored 108 publications receiving 2301 citations. Previous affiliations of Mitsuhiko Maesato include University of Tokyo.
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Journal ArticleDOI
Spin liquid state in an organic Mott insulator with a triangular lattice.
Yasuhiro Shimizu,Yasuhiro Shimizu,Kazuya Miyagawa,Kazushi Kanoda,Mitsuhiko Maesato,Gunzi Saito +5 more
TL;DR: 1H NMR and static susceptibility measurements have been performed in an organic Mott insulator with a nearly isotropic triangular lattice and suggest that a quantum spin liquid state is realized in the close proximity of the superconducting state appearing under pressure.
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Proton-Conductive Magnetic Metal–Organic Frameworks, {NR3(CH2COOH)}[MaIIMbIII(ox)3]: Effect of Carboxyl Residue upon Proton Conduction
Hisashi Okawa,Hisashi Okawa,Masaaki Sadakiyo,Teppei Yamada,Mitsuhiko Maesato,Masaaki Ohba,Hiroshi Kitagawa +6 more
TL;DR: Together with water adsorption isotherm studies, the significance of the carboxyl residues as proton carriers is revealed and the R-MnCr and R-FeFe MOFs are the first examples of coexistent Néel N-type ferrimagnetism and proton conduction.
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Emergence of inhomogeneous moments from spin liquid in the triangular-lattice Mott insulator κ − ( ET ) 2 Cu 2 ( CN ) 3
TL;DR: In this paper, the static and dynamic local spin susceptibility of the organic Mott insulator was studied by NMR spectroscopy from room temperature down to $20\phantom{\rule{0.3em}{0ex}}\mathrm{mK}
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Fabrication of Two‐Dimensional Polymer Arrays: Template Synthesis of Polypyrrole between Redox‐Active Coordination Nanoslits
Nobuhiro Yanai,Takashi Uemura,Takashi Uemura,Masaaki Ohba,Yu Kadowaki,Mitsuhiko Maesato,Mikihito Takenaka,Shotaro Nishitsuji,Hirokazu Hasegawa,Susumu Kitagawa +9 more
TL;DR: Isolation of polypyrrole from the host framework led to stacked sheet polymer objects whose orientation and morphology are directly related to the original coordination polymer template.
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Uniaxial strain method for soft crystals: Application to the control of the electronic properties of organic conductors
TL;DR: In this article, the uniaxial strain method is used to compress a crystalline sample along any direction without involving Poisson's effect, by inserting a composite of either the sample embedded in epoxy or the sample in frozen oil into a cylinder much harder than the sample composite.