竹原 雅裕 | Mitsubishi Chemical Group Science and Technology Research Center, Inc.
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概要
関連著者
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竹原 雅裕
Mitsubishi Chemical Group Science and Technology Research Center, Inc.
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宇恵 誠
Mitsubishi Chemical Group Science and Technology Research Center, Inc.
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竹原 雅裕
Mitsubishi Chemical Group Science And Technology Research Center Inc.
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宇恵 誠
Mitsubishi Chemical Group Science And Technology Research Center Inc.
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宇恵 誠
(株)三菱化学科学技術研究センター 電池材料研究所
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南部 典稔
Department Of Life Science And Sustainable Chemistry Faculty Of Engineering Tokyo Polytechnic Univer
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佐々木 幸夫
Department Of Life Science And Sustainable Chemistry Faculty Of Engineering Tokyo Polytechnic Univer
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宇恵 誠
三菱化学(株)イノベーションセンター
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南部 典稔
Department of Life Science and Sustainable Chemistry, Faculty of Engineering, Tokyo Polytechnic Univ
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佐々木 幸夫
Department of Life Science and Sustainable Chemistry, Faculty of Engineering, Tokyo Polytechnic Univ
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南部 典稔
東京工大学大学院総合理工学研究科物質電子化学専攻:東京工芸大学工学部ナノ化学科
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宇恵 誠
三菱化学株式会社
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萩山 康介
Department of Life Science and Sustainable Chemistry, Faculty of Engineering, Tokyo Polytechnic Univ
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月森 直子
Faculty of Engineering, Tokyo Polytechnic University
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鈴木 啓太
Department of Nanochemistry, Faculty of Engineering, Tokyo Polytechnic University
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竹原 雅裕
Department of Applied Chemistry, Faculty of Engineering, Tokyo Polytechnic University
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鈴木 優太
Department Of Life Science And Sustainable Chemistry Faculty Of Engineering Tokyo Polytechnic Univer
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鈴木 啓太
Department Of Nanochemistry Faculty Of Engineering Tokyo Polytechnic University
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大槻 清
Department Of Life Science And Sustainable Chemistry Faculty Of Engineering Tokyo Polytechnic Univer
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月森 直子
Faculty Of Engineering Tokyo Polytechnic University
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佐々木 幸夫
Faculty of Engineering, Tokyo Polytechnic University
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佐竹 春彦
Faculty of Engineering, Tokyo Polytechnic University
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南部 典稔
Faculty of Engineering, Tokyo Polytechnic University
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鈴木 優太
Department of Life Science and Sustainable Chemistry, Faculty of Engineering, Tokyo Polytechnic Univ
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大槻 清
Department of Life Science and Sustainable Chemistry, Faculty of Engineering, Tokyo Polytechnic Univ
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目黒 健
Department of Life Science and Sustainable Chemistry, Faculty of Engineering, Tokyo Polytechnic Univ
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新谷 正紀
Department of Nanochemistry, Faculty of Engineering, Tokyo Polytechnic University
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小野 喜也
Department of Nanochemistry, Faculty of Engineering, Tokyo Polytechnic University
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松本 貴光
Department of Nanochemistry, Faculty of Engineering, Tokyo Polytechnic University
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八木 信芳
Department of Nanochemistry, Faculty of Engineering, Tokyo Polytechnic University
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菅原 道正
Department of Nanochemistry, Faculty of Engineering, Tokyo Polytechnic University
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月森 直子
Department of Applied Chemistry, Faculty of Engineering, Tokyo Polytechnic University
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榎原 亮
Department of Applied Chemistry, Faculty of Engineering, Tokyo Polytechnic University
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目黒 健
Department Of Life Science And Sustainable Chemistry Faculty Of Engineering Tokyo Polytechnic Univer
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沢田 善秋
Mitsubishi Chemical Corporation, Yokkaichi Plant
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長岡 秀男
Mitsubishi Chemical Corporation, Specialty Chemicals Research Center
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三根 法典
Mitsubishi Chemical Corporation, Specialty Chemicals Research Center
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佐竹 春彦
Faculty Of Engineering Tokyo Polytechnic University
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沢田 善秋
Mitsubishi Chemical Corporation Yokkaichi Plant
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長岡 秀男
Mitsubishi Chemical Corporation Specialty Chemicals Research Center
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新谷 正紀
Department Of Nanochemistry Faculty Of Engineering Tokyo Polytechnic University
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松本 貴光
Department Of Nanochemistry Faculty Of Engineering Tokyo Polytechnic University
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小野 喜也
Department Of Nanochemistry Faculty Of Engineering Tokyo Polytechnic University
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三根 法典
Mitsubishi Chemical Corporation Specialty Chemicals Research Center
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萩山 康介
Department Of Life Science And Sustainable Chemistry Faculty Of Engineering Tokyo Polytechnic Univer
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八木 信芳
Department Of Nanochemistry Faculty Of Engineering Tokyo Polytechnic University
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菅原 道正
Department Of Nanochemistry Faculty Of Engineering Tokyo Polytechnic University
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榎原 亮
Department Of Applied Chemistry Faculty Of Engineering Tokyo Polytechnic University
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佐藤 智宏
Department Of Life Science And Sustainable Chemistry Faculty Of Engineering Tokyo Polytechnic University
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六鹿 瞳
Department Of Life Science And Sustainable Chemistry Faculty Of Engineering Tokyo Polytechnic University
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栗原 啓太
Department of Life Science and Sustainable Chemistry Faculty of Engineering, Tokyo Polytechnic University
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那知 徳麿
Department of Life Science and Sustainable Chemistry, Faculty of Engineering, Tokyo Polytechnic University
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那知 徳麿
Department Of Life Science And Sustainable Chemistry Faculty Of Engineering Tokyo Polytechnic University
著作論文
- リチウム二次電池用溶媒としてのモノフルオロ酢酸エチルの物性および電気化学特性
- 部分フッ素化されたメチルプロピルカーボネートの物性およびリチウム電池への応用
- ジフルオロ-3-メチル-2-オキサゾリジノンの物性, 電解液特性およびリチウム二次電池への応用
- ジフルオロ-3-メチル-2-オキサゾリジノンの物性,電解液特性およびリチウム二次電池への応用
- フルオロアセトニトリルの物性および電気二重層キャパシタへの応用
- 電気二重層キャパシタ用溶媒としてのフルオロエチレンカーボネートの利用
- フルオロエチルメチルカーボネートの物性と電解液の特性
- フルオロ-γ-ブチロラクトンの電気化学特性およびリチウム二次電池への応用
- 回転電極を用いた非水電解液中のフッ化水素の高感度検出
- リチウム二次電池用溶媒としてのトリフルオロ鎖状エーテルの物性および電気化学特性
- リチウム二次電池用溶媒としてのモノフルオロプロピオン酸エチルの利用
- モノフッ素化鎖状カーボネートの物性および電解液特性に及ぼす構造異性体の効果