原田 誠 | Department Of Chemical Engineering And Materials Science Doshisha University
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概要
- Harada Makotoの詳細を見る
- 同名の論文著者
- Department Of Chemical Engineering And Materials Science Doshisha Universityの論文著者
関連著者
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原田 誠
Department Of Chemical Engineering And Materials Science Doshisha University
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塩井 章久
同志社大学工学部
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塩井 章久
Department Of Chemistry And Chemical Engineering Yamagata University
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HARADA Makoto
Institute of Advanced Energy, Kyoto University
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Harada Makoto
Institute Of Advanced Energy Kyoto University
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SHIOI Akihisa
Institute of Advanced Energy, Kyoto University
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MIZUTANI Noriaki
Institute of Advanced Energy, Kyoto University
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Mizutani Noriaki
Institute Of Advanced Energy Kyoto University
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SUZUKI Kiyoshi
Department of Materials Science, Fukui University
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ADACHI Motonari
Institute of Advanced Energy, Kyoto University
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篠本 滋
京都大学理学研究科
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篠本 滋
京大 大学院
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Nonaka Gen
Usaien Pharmaceutical Co. Ltd.
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Nonaka Gen
Procter And Gamble Far East Inc.
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水越 允治
皇學館大学
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Adachi Motonari
Institute Of Advanced Energy Kyoto University
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SHINOMOTO Shigeru
Department of Physics, Kyoto University
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Suzuki Kiyoshi
Department Of Community Medical Service Ryukyu University Hospital
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NONAKA Gen
Proctor & Gamble Far East Inc.
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木下 正弘
京都大学原子エネルギー研究所
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原田 誠
京都大学原子エネルギー研究所
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HARADA Makoto
Department of Chemistry, Tokyo Institute of Technology
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足立 基齊
京大 エネルギー理工学研
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足立 基齊
京都大学エネルギー理工学研究所
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Harada Makoto
Department Of Chemistry Tokyo Institute Of Technology
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Watanabe I
Osaka Women's Univ. Osaka Jpn
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Yanase Etsuya
The New Industry Research Organization
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Suzuki K
Department Of Materials Science And Engineering Faculty Of Engineering Fukui University
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Suzuki Kiyoshi
Department Of Materials Science Fukui University
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Suzuki Kiyoshi
Department of Materials Science and Engineering, Faculty of Engineering, Fukui University
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HARADA MAKOTO
Department of Chemical Engineering, Kyoto University
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GOTO Masahiro
Department of Applied Chemistry, Graduate School of Engineering, Kyushu University
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SATO Yasuo
Institute of Advanced Energy, Kyoto University
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KISHIDA Masahiro
Department of Chemical Engineering, Kyushu University
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HARADA Toshio
Institute of Advanced Energy, Kyoto University
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NONAKA Gen
Institute of Advanced Energy, Kyoto University
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KANAOKA Katsuya
Institute of Advanced Energy, Kyoto University
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NAKASHIO Fumiyuki
Department of Chemical Science and Technology, Kyushu University
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塩井 章久
Institute of Advanced Energy, Kyoto University
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岸本 創
Institute of Advanced Energy, Kyoto University
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足立 基齊
Institute of Advanced Energy, Kyoto University
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原田 誠
Institute of Advanced Energy, Kyoto University
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TAKAHASHI Hiroki
Institute of Advanced Energy, Kyoto University
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KATOH Shigeo
Department of Synthetic Chemistry and Biological Chemistry, Graduate School of Engineering, Kyoto Un
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SUZUKI Kiyoshi
Institute of Atomic Energy, Kyoto University
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渡辺 春彦
京都大学原子エネルギー研究所
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塩井 章久
京都大学原子エネルギー研究所
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WATANABE Iwao
Department of Chemistry, Graduate School of Science, Osaka Prefecture University
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Goto Masahiro
Department Of Applied Chemistry Graduate School Of Engineering Kyushu University
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Katoh Shigeo
Department Of Chemical Science And Engineering Graduate School Of Engineering Kobe University
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Nakashio Fumiyuki
Department Of Cemical Science & Technology Kyushu University
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谷垣 昌敬
京大・原子エネ研
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原田 誠
京都大学エネルギー理工学研究所
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TAKAHASHI Masao
Institute of Scientific and Industrial Research, Osaka University
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DAKE Yoshinori
Kanto Technical Institute, Kawasaki Heavy Industries, Ltd
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HIROSHIMA Yasushi
Kanto Technical Institute, Kawasaki Heavy Industries, Ltd
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Dake Yoshinori
Kanto Technical Institute Kawasaki Heavy Industries Ltd
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Kishida Masahiro
Department Of Chemical Engineering Graduate School Of Engineering Kyushu University
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Kishida Masahiro
Department Of Chemical Engineering Kyushu University
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Harada Toshio
Institute Of Advanced Energy Kyoto University
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原田 誠
京大・原子エネ研
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Goto Masahiro
Department Of Chemical Science And Technology Kyushu University
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岸本 創
Institute Of Advanced Energy Kyoto University
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Kanaoka Katsuya
Institute Of Advanced Energy Kyoto University
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Hiroshima Yasushi
Kanto Technical Institute Kawasaki Heavy Industries Ltd
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Goto Masahiro
Department Of Applied Biological Chemistry The University Of Tokyo
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Watanabe Iwao
Department Of Anesthesilogy Takasaki National Hospital
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Nakashio Fumiyuki
Department Of Applied Chemistry Kyushu University
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Takahashi Hiroki
Institute For Solid State Physics University Of Tokyo
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Takahashi Masao
Institute Of Scientific And Industrial Research Osaka University
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Sato Yasuo
Institute Of Advanced Energy Kyoto University
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KATOH SHIGEO
Department of Chemical Engineering, Kyoto University
著作論文
- Growth Processes for Nanometer-Scale Au-Particles in Water-in Oil Microemulsions
- Solute Transfer between Microemulsion Droplets Composed of Sodium Dioleylphosphate and Sodium Bis(2-ethylhexyl) Sulfosuccinate Mixture
- 構造形成の外部場による制御 (特集 分子・粒子テクトニクス)
- Characteristics of Solute Transfer in Sodium Dioleyl Phosphate/Sodium Bis(2-Ethylhexyl)Sulfosuccinate Microemulsion Systems
- 非イオン性界面活性剤を逆ミセル中におけるαキモトリプシンの酵素活性
- タンパク質分離に向けての逆ミセルのテ-ラリング
- 逆ミセルを用いる分離場・反応場の設計--タンパク質を対象として (化学工学の新潮流)
- BIOAFFINITY SEPARATION OF CONCANAVALIN A IN REVERSE MICELLAR SYSTEM COMPOSED OF AOT/BUTANOL OR NON-IONIC SURFACTANT
- GROWTH MECHANISM OF CADMIUM SULFIDE ULTRAFINE PARTICLES IN WATER-IN-OIL MICROEMULSION
- スピノーダル分相によって形成される微細構造の制御
- 物質の微細構造とフラクタル性 (カオス・フラクタルとの出会い)
- レ-ザ-フラッシュ法による熱拡散率の測定 (新分野を拓く測定技術)
- マイクロエマルジョンの挙動
- 逆ミセル界面層の特性
- Order-Enhancing Processing in Self-Assembly
- Preparation of Cadmium Sulfide Ultrafine Particles in Various States with Aid of Cadmium Dioleylphosphate Microemulsion
- Probing Depth Study of Conversion Electron/He Ion Yield XAFS Spectroscopy on Strontium Titanate Thin Films
- Preparation of Cadmium Sulfide Ultrafine Particles with Sharp Size-Distribution Using Cadmium Dioleylphosphate Microemulsion
- Conversion Electron/He Ion Yield XAFS of SrTiO3 Thin Films (Proceedings of the Second International Conference on SRMS(Synchrotron Radiation in Materials Science)(2))
- 分子・粒子テクトニクスとは (特集 分子・粒子テクトニクス)
- 界面の構造制御と応用-科学と技術の接点-
- マイクロエマルションの性質と物質分離機能 (液膜分離技術と応用)
- シトクロムcのマイクロエマルジョンへの可溶化機構
- B12 液相中の拡散係数の推算について(配位相転移の研究,基研研究会報告)
- 高温における輸送物性の測定と推定--液体金属と溶融塩を中心として (準極限条件下の輸送物性の測定技術と推算法)
- 溶融塩の熱力学的性質の理論的推定