OHARU Kazuya | Asahi Glass Co., Ltd.
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概要
関連著者
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SAWADA Hideo
Department of Frontier Materials Chemistry, Graduate School of Science and Technology, Hirosaki Univ
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沢田 英夫
日本油脂(株)筑波研究所
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Sawada Hideo
Department Of Frontier Materials Chemistry Graduate School Of Science And Technology Hirosaki Univer
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Kawase Tokuzo
Graduate School Of Human Life Science Osaka City University
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Nakagawa Hideki
Asahi Glass Co. Ltd.
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OHARU Kazuya
Asahi Glass Co., Ltd.
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OHIRA Kunihiro
Asahi Glass Co., Ltd.
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Oharu Kazuya
Asahi Glass Co. Ltd.
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Ohira Kunihiro
Asahi Glass Co. Ltd.
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沢田 英夫
Dep. Of Frontier Materials Chemistry Graduate School Of Sci. And Technol. Hirosaki Univ.
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Sawada Hideo
Department Of Frontier Materials Chemistry Faculty Of Science And Technology Hirosaki University
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SAWADA Hideo
Department of Biochemistry, Gifu College of Pharmacy
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MAEKAWA Tomomi
Graduate School of Human Life Science, Osaka City University
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KURACHI Jun
Department of Chemistry, Faculty of Advanced Engineering, Nara National College of Technology
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YANAGIDA Kenta
Department of Chemistry, Faculty of Advanced Engineering, Nara National College of Technology
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TAKAHASHI Ryo
Graduate School of Human Life Science, Osaka City University
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NISHIKAWA Yoshikazu
Graduate School of Human Life Science, Osaka City University
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WADA Kunimi
Japan Synthetic Textile Inspection Institute Foundation
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Kurachi Jun
Department Of Chemistry Faculty Of Advanced Engineering Nara National College Of Technology
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Yanagida Kenta
Department Of Chemistry Faculty Of Advanced Engineering Nara National College Of Technology
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Maekawa Tomomi
Graduate School Of Human Life Sci. Osaka City Univ.
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Maekawa Tomomi
Graduate School Of Human Life Science Osaka City University
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Nishikawa Y
Graduate School Of Human Life Science Osaka City University
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Takahashi Ryo
Graduate School Of Human Life Science Osaka City University
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Nishikawa Yoshikazu
Graduate School Of Human Life Science Osaka City University
著作論文
- Aldol Reaction of Silyl Enol Ether with Benzaldehyde in Water-Methanol Solvents Using Fluoroalkyl End-Capped Polymer Gels as Reaction Media
- Solubilization of Hibitane into Common Organic Solvents with Self-Assembled Fluorinated Molecular Aggregates. Application to Novel Surface Antibacterial Materials Possessing a Good Oleophobicity