Yamamoto Hideo | Department Of Environmental Engineering For Symbiosis Faculty Of Engineering Soka University
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概要
- YAMAMOTO HIDEOの詳細を見る
- 同名の論文著者
- Department Of Environmental Engineering For Symbiosis Faculty Of Engineering Soka Universityの論文著者
関連著者
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Yamamoto Hideo
Department Of Cardiology Kyushu Kosei-nenkin Hospital
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Yamamoto Hideo
Department Of Environmental Engineering For Symbiosis Faculty Of Engineering Soka University
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Shioji Shuhei
Department Of Material Science Wakayama National College Of Technology
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Tokami Kenjiro
Department Of Material Science Wakayama National College Of Technology
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Hayashi Yasuhiro
Department Of Material Science Wakayama National College Of Technology
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Hayashi Yasuhiro
Department Of Bacteriology School Of Medicine Kanazawa University
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Matsuyama Tatsushi
Department Of Bioengineering Faculty Of Engineering Soka University
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YAMAMOTO HIDEO
Department of Surgery, Tohkai Hospital
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KAWAGUCHI Masashi
Department of Radiology, Yokohama City University Hospital, Graduate School of Medicine
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Kawaguchi Masashi
Department Of Material Science Wakayama National College Of Technology
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Kawaguchi Masashi
Department Of Electrical Engineering.suznka National College Of Technology:department Of Electrical
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SHIOJI SHUHEI
Department of Materials Science, Wakayama National College of Technology
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HAYASHI YASUHIRO
Department of Materials Science, Wakayama National College of Technology
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TOKAMI KENJIRO
Department of Materials Science, Wakayama National College of Technology
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Matsuyama Tatsushi
Department Of Bioengineering Soka University
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KURAYAMA FUMIO
Department of Environmental Engineering for Symbiosis, Faculty of Engineering, Soka University
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HANADA MASASHI
Department of Material Science, Wakayama National College of Technology
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Kurayama Fumio
Department Of Bioengineering Soka University
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Hanada Masashi
Department Of Material Science Wakayama National College Of Technology
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Tokami Kenjiro
Department of Chemistry, Faculty of Education, Wakayama University
著作論文
- Rates of alkoxylation and hydrolysis of alkoxyl groups on silica surfaces
- Rehydroxylation of dehydrated silica surfaces by water vapor adsorption
- Maximum electrostatic charge of powder in pipe flow
- Kinetic study of a new photosynthesis bioreactor design using TiO_2 particles combined with enzymes
- A feasibility study of a new photosynthesis bioreactor design using TiO_2 particles combined with enzymes
- Kinetic study of alkoxylation and rehydroxylation reactions on silica surfaces
- Continuous surface modification of silica particles for enzyme immobilization