H
Hirosato Monobe
Researcher at National Institute of Advanced Industrial Science and Technology
Publications - 134
Citations - 2554
Hirosato Monobe is an academic researcher from National Institute of Advanced Industrial Science and Technology. The author has contributed to research in topics: Mesophase & Liquid crystal. The author has an hindex of 28, co-authored 132 publications receiving 2352 citations. Previous affiliations of Hirosato Monobe include Japanese Ministry of International Trade and Industry & University of Warsaw.
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Journal ArticleDOI
High Carrier Mobility of Organic Field-Effect Transistors with a Thiophene–Naphthalene Mesomorphic Semiconductor
Kazuma Oikawa,Hirosato Monobe,Ken-ichi Nakayama,Takahisa Kimoto,Kazuhiko Tsuchiya,Benoît Heinrich,Daniel Guillon,Yo Shimizu,Masaaki Yokoyama +8 more
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Shaping liquid on a micrometre scale using microwrinkles as deformable open channel capillaries
TL;DR: In this article, a simple technique for shaping liquids into micrometre-scale filaments was proposed, which can be used for micro-patterning, nano-and micro-reactors, and microfluidics.
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High Carrier Mobility up to 1.4 cm2·V-1·s-1in Non-Peripheral Octahexyl Phthalocyanine
Miyake Yasuo,Miyake Yasuo,Youyu Shiraiwa,Keizo Okada,Hirosato Monobe,Tetsuro Hori,Naoyuki Yamasaki,Hiroyuki Yoshida,Michael J. Cook,Akihiko Fujii,Masanori Ozaki,Yo Shimizu +11 more
TL;DR: In this article, the carrier transport properties of a non-peripherally alkyl-substituted phthalocyanine (C6PcH2) have been investigated.
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Strong tendency towards homeotropic alignment in a hexagonal columnar mesophase of fluoroalkylated triphenylenes
TL;DR: In this paper, it was found that the perfluoroalkyl group into the peripheral chains of triphenylene mesogens could provide a strong tendency towards homeotropic alignment of the hexagonal columnar (Colh) mesophase on a variety of substrates.
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Enhanced Hole‐Transporting Behavior of Discotic Liquid‐Crystalline Physical Gels
Yuki Hirai,Hirosato Monobe,Norihiro Mizoshita,Masaya Moriyama,Kenji Hanabusa,Yo Shimizu,Takashi Kato +6 more
TL;DR: The hole mobilities of the discotic liquid-crystalline (LC) physical gels measured by a time-of-flight method become higher than those of LC triphenylenes alone.