Fukumasa Mitsuo | Material Development Research Laboratories Nippon Mining Co. Ltd.
スポンサーリンク
概要
関連著者
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FUKUMASA Mitsuo
Materials Development Research Laboratory, Nippon Mining Co., Ltd.
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Fukumasa Mitsuo
Material Development Research Laboratories Nippon Mining Co. Ltd.
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YOSHIZAWA Atsushi
Nippon Mining Co., Lid, Materials Development Research Laboratories
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Hirai T
Tohoku Univ. Sendai‐shi
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Hirai Toshihiro
Material Development Research Laboratory Nippon Mining Co. Lid.
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NISHIYAMA Isa
Japan Energy Corporation
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Yoshizawa Atsushi
Material Development Research Laboratory Nippon Mining Co. Lid.
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Yoshizawa Atsushi
Materials Development Research Laboratory Nippon Mining Co. Ltd.
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Yoshizawa Atsushi
Nippon Mining Co. Lid Materials Development Research Laboratories
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Nishiyama I
Japan Sci. And Technol. Corp. Ibaraki Jpn
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Nishiyama Isa
Materials Development Research Laboratories Nippon Mining Co. Ltd.
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Uryu Toshiyuki
Institute Of Industrial Science The University Of Tokyo Roppongi
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Uryu Toshiyuki
Institute Of Industrial Science The University Of Tokyo
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Uryu T
Teikyo Univ. Sci. & Technol. Yamanashi Jpn
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Frechet Jean
Department Of Chemistry Baker Laboratory Cornell University
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KATO Takashi
Institute of Rheumatology, Aoyama Hospital, Tokyo Women's Medical University
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Fukumasa Mitsuo
Materials Development Research Laboratory Nippon Mining Co. Ltd.
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Yamane Mamoru
Materials Development Research Laboratory Nippon Mining Co. Ltd.
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SHIRATORI Nobuyuki
Material Development Research Laboratories, Nippon Mining Co., Ltd.
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YOKOYAMA Akihisa
Material Development Research Laboratory, Nippon Mining Co., Ltd.
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Kato Takashi
Institute Of Rheumatology Tokyo Women's Medical University
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Yokoyama Akihisa
Material Development Research Laboratory Nippon Mining Co. Ltd.
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Shiratori Nobuyuki
Material Development Research Laboratory Nippon Mining Co. Lid.
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Kato Takashi
Institute Of Industrial Science The University Of Tokyo
著作論文
- The Simplest Structure of the Hydrogen-Bonded Mesogen Built from 4-Alkoxybenzoic Acid and 4-Alkylpyridine
- Different Effects of Alkyl Chain Length on Rotational Viscosity in Two Types of FLC Mixtures
- Antiferroelectric Chiral Smectic C Materials Having a 2-Alkyl Alkanoyl Group in the Chiral Part
- Effect of Alkyl Chain Length of Chiral Dopants on Rotational Viscosity of FLC Mixtures
- New Ferroelectric Liquid Crystal with Large Spontaneous Polarization