Watanabe Satoshi | Advanced Research Laboratory Hitachi Ltd.
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概要
関連著者
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Watanabe Satoshi
Advanced Research Laboratory Hitachi Ltd.
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和田 智史
東京工業大学大学院理工学研究科材料工学専攻
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Wada Satoshi
Department Of Physics Graduate School Of Science Tokyo University Of Science
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Wada Satoshi
Riken
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和田 智志
Department Of Metallurgy And Ceramics Science Graduate School Of Science And Engineering Tokyo Insti
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Wada S
Faculty Of Engineering Yokohama National University
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鶴見 敬章
東工大理工
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Watanabe Satoshi
Aono Atomcraft Project Erato Research Development Corporation
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Watanabe Satoshi
Hoshi University
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渡辺 聡
星薬科大学衛生化学教室
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Watanabe Satoshi
星薬科大学 薬学部衛生化学
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Watanabe Satoshi
Department Of Materials Science University Of Tokyo
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Watanabe Satoshi
Faculty Of Pharmaceutical Sciences Hoshi University
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渡辺 聡
星薬大
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渡辺 聡
星薬大・薬
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Watanabe Satoshi
Department Of Agricultural Chemistry University Of Tokyo
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WATANABE Satoshi
Department of Rehabilitation Medicine, St. Marianna University Hospital
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HASHIZUME Tomihiro
Advanced Research Laboratory, Hitachi, Ltd.
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Hashizume Tomihiro
Advanced Research Laboratory Hitachi Lid.
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HEIKE Seiji
Advanced Research Laboratory, Hitachi, Ltd.
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Watanabe S
Univ. Tokyo Tokyo Jpn
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鶴見 敬章
東工大院理工
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WADA Yasuo
Advanced Research Laboratory, Hitachi Ltd.
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掛本 博文
東工大院理工
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WADA Satoshi
Department of Research Interdisciplinary Graduate School of Medicine and Engineering, University of
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掛本 博文
Department Of Inorganic Materials Faculty Of Engineering Tokyo Institute Of Technology
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Fukui Tetsuya
Department Of Health Chemistry
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TSURUMI Takaaki
Graduate School of Science and Engineering, Tokyo Institute of Technology
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FUKUI Tetsuya
Department of Health Chemistry, Hoshi University
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Fukui T
Hoshi Univ. Tokyo Jpn
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Fukui Tetsuya
Hoshi University
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保科 拓也
東工大理工
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和田 智志
東工大院理工
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KAKEMOTO Hirofumi
Graduate School of Science and Engineering, Tokyo Institute of Technology
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Saito N
Nagoya Univ. Aichi Jpn
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Fukui T
Byotai‐seiri Lab. Tokyo Jpn
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Saito Norihito
Solid-state Laser For Astronomical Observation Research Team Riken
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TOGASHI Shin-ichi
Department of Health Chemistry, Faculty of Pharmaceutical Sciences, Hoshi University
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Kakemoto Hirofumi
Department Of Metallurgy And Ceramics Science Graduate School Of Science And Engineering Tokyo Insti
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Hirofumi Kakemoto
Department Of Metallurgy And Ceramics Science Graduate School Of Science And Engineering
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Takahashi Noriko
星薬科大学医薬品化学研究所 病態機能制御学研究室
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Takahashi N
Faculty Of Pharmaceutical Sciences Hoshi University
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保科 拓也
東工大院理工
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Takahashi Noriko
Faculty Of Pharmaceutical Sciences Hoshi University
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福井 哲也
星薬大・薬
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Takahashi N
Laboratory Of Physiological Chemistry Institute Of Medicinal Chemistry Hoshi University
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Tsurumi Takaaki
Department of Inorganic Materials, Graduate School of Science and Engineering, Tokyo Institute of Te
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和田 智志
東京工業大学 工学部無機材料工学科
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鶴見 敬章
東京工業大学 大学院理工学研究科 材料工学専攻
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NAKAJIMA Ken
Department of Organic and Polymeric Materials, Graduate School of Science and Engineering, Tokyo Ins
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NISHI Toshio
Department of Organic and Polymeric Materials, Graduate School of Science and Engineering, Tokyo Ins
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Takahashi Noriko
Department Of Biochemistry University Of Shizuoka School Of Pharmaceutical Sciences Core Research Fo
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鶴見 敬章
東京工業大学工学部無機材料工学科
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KAKEMOTO Hirofumi
Department of Metallurgy and Ceramics Science, Tokyo Institute of Technology
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和田 智志
東京工業大学大学院理工学研究科
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Maeda Yasuhiro
Department Of Physics Graduate School Of Science Tokyo University Of Science
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YUMOTO Masaki
Department of Physics, Graduate School of Science, Tokyo University of Science
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Nishi Toshio
Department Of Applied Physics Faculty Of Engineering The University Of Tokyo
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Lutwyche M
Hitachi Ltd. Saitama Jpn
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Nakajima Kensuke
Research Institute Of Electrical Communication Tohoku University
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Kakemoto Hirofumi
Department Of Applied Physics Faculty Of Science Science University Of Tokyo
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八島 正知
東工大・総理工
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MAEDA Yasuhiro
Department of Hematology, Kinki University School of Medicine
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黒岩 芳弘
広大院理
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Yamashita Masafumi
Department Of Physics Tokyo University Of Science
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福井 哲也
星薬科大学
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八島 正知
東工大院総合理工
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IKEHARA Takayuki
Department of Applied Chemistry, Faculty of Engineering, Kanagawa University
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Watanabe Satoshi
Faculty Of Engineering Kyushu University
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河内 佐十
星薬科大学
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Nam S‐m
Tokyo Inst. Technol. Tokyo Jpn
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Nam S
Tokyo Inst. Technol. Tokyo Jpn
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MATSUURA SHINOBU
Department of Urology, Akita University School of Medicine
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WADA Satoshi
Graduate School of Science and Engineering, Tokyo Institute of Technology
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SAITO Norihito
Solid State Laser for Astronomical Observation Research Team, RIKEN
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河内 佐十
星薬科大学 衛生化学教室
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加藤 慈子
星薬科大学衛生化学教室
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和田 智志
山梨大院医工
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Fukui Tetsuya
Faculty Of Pharmaceutical Sciences Hoshi University
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和田 智志
Tokyo Institute of Technology
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鶴見 敬章
Tokyo Institute of Technology
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OGAWA Takayo
Solid-State Laser for Astronomical Observation Research Team, RIKEN
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Saito Norihito
Solid State Laser For Astronomical Observation Research Team Riken
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Ikehara T
Kanagawa Univ. Yokohama Jpn
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Ikehara Takayuki
Department Of Applied Chemistry School Of Engineering Kanagawa University
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Ishiguro Akiko
Department Of Health Chemistry Faculty Of Pharmaceutical Sciences Hoshi University
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HITOSUGI Taro
Department of Chemistry, University of Tokyo
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Kitazawa K
Univ. Tokyo Tokyo
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Matsuura Shinobu
Department Of Superconductivity University Of Tokyo
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Matsuura Shinobu
Department Of Chemical Engineering Faculty Of Engineering Tokyo University
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Kitazawa Koichi
Department Of Superconductivity University Of Tokyo
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SUZUKI Tatsuya
Research Laboratory for Nuclear Reactors, Tokyo Institute of Technology
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鈴木 利昌
太陽誘電
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黒岩 芳弘
岡山大理
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鈴木 健之
国立大学法人東京農工大学大学院共生科学技術研究院物質機能科学部門
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藤田 茂夫
京都大学大学院工学研究科電子工学
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樋口 透
東理大理
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瀬山 義幸
星薬科大学臨床化学教室
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Fujita Shiz
Kyoto Univ. Kyoto Jpn
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宇佐美 英治
茅ヶ崎市立病院薬局
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明渡 純
(独)産業技術総合研究所グループ
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明渡 純
産業技術総合研究所機械システム研究部門グループ
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明渡 純
産業技術総合研究所
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藤田 静雄
京都大学国際融合創造センター
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瀬山 義幸
星薬科大学
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中田 正文
日本電気(株)ナノエレクトロニクス研究所
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柏田 智志
東工大院理工
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黒岩 芳弘
広島大理
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Fujita S
Department Of Electronic Science And Engineering Kyoto University
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Nakano Akihiko
Molecular Membrane Biology, RIKEN
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Nakano Akihiko
Molecular Membrane Biology Lab Riken Advanced Science Institute:dept Biological Science Graduate Sch
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鈴木 健之
東京農工大院・生命
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中田 正文
日本電気(株)基礎・環境研究所
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KITAZAWA Koichi
Department of Industrial Chemistry, University of Tokyo
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宇佐美 英治
茅ケ崎市立病院
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斉藤 雅昭
星薬大・薬
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Higuchi T
Department Of Applied Physics Tokyo University Of Science
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相川 豊
太陽誘電(株)r&dセンター
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相川 豊
太陽誘電r&d
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Suzuki Takamasa
Department Of Electronics Nagoya University:r&d Department Nippondenso Co. Ltd.
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FUJITA Shigetaka
Department of Electrical and Electronic System, Hachinohe Institute of Technology
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鈴木 利昌
太陽誘電(株)r&dセンター ワイヤレスインフォメーションネットワークgr. 先端材料デバイス部
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Osada M
National Inst. For Materials Sci. Tsukuba Jpn
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Suzuki T
Free Electron Laser Research Institute Inc.
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Suzuki Shingo
Department of Bioinformatic Engineering, Graduate School of Information Science and Technology, Osak
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野間 竜男
国立大学法人東京農工大学大学院共生科学技術研究院物質機能科学部門
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藤田 静雄
京大 国際融合創造セ
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野間 竜男
東京農工大工
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Osada M
Advanced Materials Laboratory National Institute For Materials Science
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Tashiro Hideo
Photodynamics Research Center, The Institute of Physical and Chemical Research (RIKEN)
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Nam Song-Min
Department of Inorganic Materials, Graduate School of Science and Engineering, Tokyo Institute of Te
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Ishiguro Akiko
Department of Physics,Tohoku University
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武田 浩太郎
東工大院理
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木村 敏夫
慶大
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村石 智光
東工大院理
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横尾 圭祐
東工大院理
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Suzuki T
Taiyo Yuden Co. Ltd. Gunma Jpn
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宮坂 一善
星薬科大学衛生化学教室
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Suzuki Shingo
Department Of Bioinformatic Engineering Graduate School Of Information Science And Technology Osaka
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Eguchi Takashi
Department Of Mechanical Engineering Science
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Eguchi Takashi
Department Of Internal Medicine Keio University School Of Medicine
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Suzuki T
Nhk (japan Broadcasting Corp.) Tokyo
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YAMAGUCHI Tomoko
Department of Food Science and Nutrition, Nara Women's University
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Li Jianyong
Department Of Metallurgy And Ceramics Science Graduate School Of Science And Engineering Tokyo Insti
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Li Jianyong
Department Of Biochemistry Virginia Polytechnic Institute And State University
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岩崎 誉志紀
太陽誘電(株)R & Dセンター 材料開発部
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坂下 達生
太陽誘電(株)R & Dセンター 材料開発部
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Fukui Tetsuya
Department Of Health Chemistry Faculty Of Pharmaceutical Sciences Hoshi University
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HIGUCHI Tohru
Department of Applied Physics, Tokyo University of Science
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寺西 貴志
東京工業大学大学院理工学研究科
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掛本 博文
東京工業大学大学院理工学研究科
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福長 脩
エーステック(株)
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NUMAO Naganori
BioFrontier Institute Inc.
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藤田 静雄
京都大学大学院工学研究科電子物性工学専攻所属
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野澤 あい
山梨大院医工
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大野 健
東工大院
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李 恩竹
Department of Inorganic Materials, Faculty of Engineering, Tokyo Institute of Technology
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鶴見 敬章
Department of Inorganic Materials, Faculty of Engineering, Tokyo Institute of Technology
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近森 英記
東京農工大学工学部応用化学科
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KUROKAWA Kazuo
Molecular Membrane Biology Laboratory, RIKEN
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MASUDA Yoichiro
Department of Electrical Engineering, Faculty of Engineering, Hachinohe Institute of Technology
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明渡 純
産業技術総合研
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KAKIHANA Masato
Materials and Structures Laboratory Tokyo Institute of Technology
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Suzuki Tatsuro
Department Of Electrical Engineering Shizuoka University
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岩崎 誉志紀
太陽誘電:東大院理
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KIMURA Yumi
Department of Oral Radiology, School of Dental Medicine, Tsurumi University
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KOBAYASHI Susumu
Faculty of Pharmaceutical Sciences, Science University of Tokyo
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TASHIRO Hideo
The Institute of Physical and Chemical Research (RIKEN)
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Noma T
Tokyo Univ. Agriculture And Technol.
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KAKIMOTO Ken-ichi
Department of Urology, Osaka Medical Center for Cancer and Cardiovascular diseases
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SAITO Norihito
RIKEN
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Yamazaki Akiko
Department Of Earth Science School Of Education Waseda University
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Yamazaki Akiko
Faculty Of Pharmaceutical Sciences Science University Of Tokyo
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TSUKIORI Daisuke
Department of Metallurgy and Ceramics Science, Graduate School of Science and Engineering, Tokyo Ins
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SHIBATA Hajime
National Institute of Advanced Industrial Science and Technology
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NAM Song-Min
Graduate school of Science and Engineering, Tokyo Institute of Technology
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Noma Tatsuo
Department of Applied Chemistry, Tokyo University of Agriculture & Technology
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Suzuki Takeyuki
Department of Applied Chemistry, Tokyo University of Agriculture & Technology
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Osada Minoru
Institute of Physical & Chemical Research
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Park Seung-Eek
Materials Research Laboratory, Pennsylvania State University
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Cross L.Eric
Materials Research Laboratory, Pennsylvania State University
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Shrout Tohmas
Materials Research Laboratory, Pennsylvania State University
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Noma Tatuo
Department Of Applied Chemistry Tokyo University Of Agriculture & Technology
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KUBO Yoshinori
Department of Health Chemistry, Faculty of Pharmaceutical Sciences, Hoshi University
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Shigihara Atsushi
Department of Health Chemistry, Faculty of Pharmaceutical Sciences, Hoshi University
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Higashiyama Kimio
Department of Health Chemistry, Faculty of Pharmaceutical Sciences, Hoshi University
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Ishiguro Akiko
Faculty of Pharmaceutical Sciences, Hoshi University
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Togashi Shin-ichi
Faculty of Pharmaceutical Sciences, Hoshi University
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Ohishi Masami
Snowden Co. Ltd.
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KUBO Yoshinori
Laboratory of Physiological Chemistry, Institute of Medicinal Chemistry, Hoshi University
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Fujita Shigetaka
Department Of Electrical And Electronic Engineering Faculty Of Engineering Hachinohe Institute Of Te
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Fujita Shigetaka
Department Of Electrical Engineering Hachinohe Institute Of Technology
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Noguchi Norihisa
Department Of Microbiology School Of Pharmacy Tokyo University Of Pharmacy And Life Sciences
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Noguchi Norihisa
Tokyo University Of Pharmacy And Life Science
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Masuda Yoshitake
Nagoya University Graduate School Of Engineering Department Of Applied Chemistry
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Kobayashi Susumu
Faculty Of Pharmaceutical Sciences Science University Of Tokyo
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Kobayashi Susumu
Department Of Pharmaceutical Sciences Tokyo University Of Science
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Suzuki Tatsuhiko
Department Of Electrical Engineering Faculty Of Engineering Science University Of Tokyo
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Shigihara Atsushi
Department Of Health Chemistry Faculty Of Pharmaceutical Sciences Hoshi University
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Suzuki Toshiharu
Sony Sc Ulsi R&d Laboratories
著作論文
- エンジニアード・ドメイン構造を導入した強誘電体単結晶における巨大圧電効果
- 27pYA-6 チタン酸バリウムナノ粒子の相転移と表面構造(27pYA 誘電体,領域10(誘電体,格子欠陥,X線・粒子線,フォノン物性))
- 20aYM-7 チタン酸バリウムナノ粒子における相転移挙動(誘電体,領域10(誘電体,格子欠陥,X線・粒子線,フォノン物性))
- 臭素酸カリウムと還元型グルタチオンによるリノール酸の過酸化に対する酢酸レチノールの抑制効果
- 脂質ラジカルに対する消化性潰瘍治療剤の消去作用について
- グルタチオンラジカルによる脂質過酸化に対する酢酸レチノールの抑制作用
- 一枚膜リポソームを用いたクルクミンの抗酸化作用の検討
- 20pXA-1 チタン酸バリウム微粒子における粒子構造とサイズ効果(誘電体(BaTiO_3系・SrTiO_3系),領域10,誘導体,格子欠陥,X線・粒子線,フォノン物性)
- 20pXA-2 テンプレート粒子成長法による[110]配向チタン酸バリウムセラミックスの作製とその圧電特性(誘電体(BaTiO_3系・SrTiO_3系),領域10,誘導体,格子欠陥,X線・粒子線,フォノン物性)
- 赤外反射測定法を用いたTHz領域におけるBaTiO3誘電体粒子の誘電特性評価
- トリクロロ酢酸及びトリクロロエチレンによるマウスの脂質過酸化反応と肝障害
- ペンタクロロフェノールによる脂質過酸化反応に対するリボフラビン酪酸エステルの抑制効果
- 26aYE-12 チタン酸バリウムの微粒子特性に関する理論的考察(誘電体(BaTiO_3関連),領域10,誘電体,格子欠陥,X線・粒子線,フォノン物性)
- 強誘電体結晶の異方性を利用したエンジニアード・ドメイン構造 (特集 異方性工学のすすめ(1)構造と異方性)
- ドメイン構造制御による巨大圧電特性の発現--エンジニアード・ドメイン構造と圧電特性向上のメカニズム
- チタン酸ストロンチウム-チタン酸ジルコニウム固溶体の超広帯域誘電スペクトロスコピー
- 22aTD-11 ペロブスカイト型酸化物ナノキューブの合成とその構造評価(格子欠陥・ナノ構造(炭素・ナノ構造),領域10,誘電体,格子欠陥,X線・粒子線,フォノン物性)
- マンガンを添加した非鉛セラミックス(K,Na,Li) (Nb,Ta,Sb)O_3の圧電特性
- 強誘電体ナノ粒子 : 強誘電体ナノ粒子における複合構造と巨大誘電特性の発現
- 圧電・超音波材料 非鉛系圧電材料におけるドメインエンジニアリングの新展開
- 圧電・電歪材料--ナノ構造制御によるアクチュエータ材料の革新 (特集 マルチフェロイクス材料・デバイス研究開発への新展開)
- ドメイン制御による非鉛系圧電体結晶の性能向上
- リラクサー誘電体
- 26pYH-15 MBE法で作製したbeta-FeSi_2薄膜の光吸収係数(高密度励起現象・量子井戸・格子振動・表面,領域5(光物性))
- 圧電・超音波材料 非鉛系圧電材料における現状と将来像
- 強誘電体単結晶における新しいドメイン構造 制御としてのエンジニアード・ドメイン構造 (特集 強誘電体におけるドメインエンジニアリングの最新動向)
- 29pYR-5 リラクサー強誘電体単結晶におけるドメインエンジニアリング
- 解説 積層セラミックスキャパシターのアクチュエータ特性
- 改良低温直接合成法を用いたナノメーターオーダーチタン酸バリウム単結晶粒子の合成とそのキャラクタリゼーション
- Broadly Tunable UV-Blue Picosecond Pulsed Laser and Its Application for Biological Imaging
- Effect of Antioxidant on Trichloroethylene-induced Liver Cell Injury and Peroxisome Proliferation (Proceedings of the 23rd Symposium on Toxicology and Environmental Health)
- Preparation and evaluation of microwave dielectric ceramic thick films by aerosol deposition process(Global Innovation in Advanced Ceramics)
- Optical constants of beta-FeSi_2 film on Si substrate obtained from transmittance and reflectance data and origin of Urbach-tail
- High frequency dielectric mapping using un-contact probe for dielectric materials
- Enhanced Piezoelectric Property of Barium Titanate Single Crystals with Engineered Domain Configurations
- L-Tryptophan as an Antioxidant in Human Placenta Extract
- Suppressive Effects of Uracil, Tyrosine, and Phenylalanine Contained in Human-Placenta Extract on Acute Ethanol-Induced Liver Injury in Mice
- Purification and Identification of Antioxidant Substances in Human-Placenta Extracts
- Studies on the Suppressive Effect of Antioxidant in Human Placental Extract on Oxidative Stress and its Mechanism(PROCEEDINGS OF 24TH SYMPOSIUM ON TOXICOLOGY AND ENVIRONMENTAL HEALTH)
- First-Principles Study of Apparent Barrier Height : Surfaces, Interfaces, and Films
- Ab Initio Calculation of the Electric Properties of Al Atomic Chains under Finite Bias Voltages : Electronical Properties of Condensed Matter
- Direct Imaging of Thermodynamic Process In Atom Migration by Using Scanning Tunneling Microscopy
- Reduced Density of Missing-Dimer Vacancies on Tungsten-Contaminated Si (100)-(2×n) Surface by Hydrogen Termination
- Control of Surface Current on a Si(111) Surface by Using Nanofabrication
- Theoretical Study of Ga Adsorbates around Dangling-Bond Wires on am H-Terminated Si Surface: Possibility of Atomic-Scale Ferromagnets
- Initial Stage of Molecular Adsorption on Si(100) and H-terminated Si(100) Investigated by UHV-STM(STM-Si(001))
- Scanning Tunneling Spectroscopy of Dangling-Bond Wires Fabricated on the Si(100) -2 × 1 -H Surface
- Property Change of Si(111) Surface by Scanning Tunneling Microscope Manipulation
- Ferroelectric and Pyroelectric Properties of Ba_Pb_x Ti_(Hf_,Zr_)_O_3 Thin Films : Electrical Properties of Condensed Matter
- Enhanced Piezoelectric Properties of Piezoelectric Single Crystals by Domain Engineering
- Novel Biological Activity of the Region (106-126) on Human Prion Sequence
- Difference-Frequency Generation in MgO-Doped Periodically Poled LiNbO_3 Using an Electronically Tuned Ti:Sapphire Laser in Dual-Wavelength Operation
- Intracavity Difference Frequency Generation Using Dual-wavelength Oscillation by an Electronically Tuned Ti:Sapphire Laser
- Contribution of Nitric Oxide to Potassium Bromate-Induced Elevation of Methaemoglobin Concentration in Mouse Blood(Toxicology)
- Potassium Bromate-lnduced Hyperuricemia Stimulates Acute Kidney Damage and Oxidative Stress
- Effect of Human Placenta Extract on Potassium Oxonate-Induced Elevation of Blood Uric Acid Concentration
- 1kHz 全固体電子制御 Ti : sapphire レーザーによる狭帯域ピコ秒パルス発生
- Wavelength Stabilization of Dual-Wavelength Oscillation in Electronically Tuned Ti:Al2O3 Laser
- DEVELOPMENT OF EYE-SAFE 2-MICRON LASER FOR REMOTE-SENSING
- Domain Switching Kinetics of Lead Zirconate Titinate Thin Films
- Study of Initial Stage of Molecular Adsorption on Si(100) by Scanning Tunneling Microscopy
- Development of an In-Situ Method of Fabricating Artificial Atom Structures on the Si(100) Surface
- Interaction of Ga Adsorbates with Dangling Bonds on the Hydrogen Terminated Si(100) Surface
- Poling Treatment and Piezoelectric Properties of Potassium Niobate Ferroelectric Single Crystals
- Experimental Study of Stall Behavior in Radial Vaneless Diffuser of Centrifugal Pump
- Development of Pulsatile Flow Experiment System and PIV Measurement in an Elastic Tube
- Suppressive Effect of Curcumin on Trichloroethylene-induced Oxidative Stress