Moriya Osamu | Department Of Applied Chemistry National Defence Academy
スポンサーリンク
概要
関連著者
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Moriya Osamu
Department Of Applied Chemistry National Defence Academy
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Moriya Osamu
Department Of Applied Chemistry National Defense Academy
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Oikawa Masafumi
Department Of Materials Science And Engineering Iwate University
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SUGIZAKI Toshio
Research Laboratory, Lintec Co.
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Sugizaki Toshio
Research Laboratory Lintec Co.
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Oikawa M
Department Of Applied Chemistry National Defense Academy
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Moriya Osamu
Department of Applied Chemistry, National Defense Academy
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Moriya O
Department Of Applied Chemistry National Defense Academy
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Oikawa Masayuki
Research Institute For Applied Mechanics Kyushu University
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Sekiya Tomohiro
Research Laboratory Lintec Co.
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Yamamoto Shin-ichi
Department Of Anesthesiology Keio University School Of Medicine
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Yamamoto Shin‐ichi
Department Of Applied Chemistry National Defense Academy
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Yamamoto Shinichi
Department Of Electrical And Electronic Engineering Tokyo Institute Of Technology
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KAGEYAMA Toshifumi
Department of Industrial Chemistry, Faculty of Engineering, Kanto Gokuin University
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Kageyama Toshifumi
Department Of Industrial Chemistry Faculty Of Engineering Kanto Gakuin University
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YAMAMOTO SHIN-ICHI
Department of Anesthesiology, Keio University School of Medicine
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KASHIO Mikihiro
Research Laboratory, Lintec Co.
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Shimada T
Research Laboratory Lintec Co.
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Kashio Mikihiro
Research Laboratory Lintec Co.
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Kageyama T
Department Of Industrial Chemistry Kantogakuin University
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Endo Takeshi
Research Laboratory Of Resources Unilization Tokyo Institute Of Technology
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MASUDA Toyoshi
Department of Applied Chemistry, National Defense Academy
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Masuda Toyoshi
Department Of Applied Chemistry National Defense Academy
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ENDO Takeshi
Research Laboratory of Resources Utilization, Tokyo Institute of Technology
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KIMURA Atsuko
Research Laboratory, Lintec Co.
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Kimura Atsuko
Research Laboratory Lintec Co.
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Endo Takeshi
Research Laboratories, DENSO CORPORATION, Nisshin, Aichi 470-0111, Japan
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遠藤 剛
近畿大学分子工学研究所
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遠藤 剛
近畿大 分子工研
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NAKAMURA Yoshiyuki
Research Laboratory of Resources Utilization, Tokyo Institute of Technology
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OIKAWA Masayuki
Department of Applied Mathematics, Kyushu University
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Nakamura Y
Department Of Macromolecular Science Osaka University
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Oikawa Masayuki
Department Of Applied Mathematic And Physics Kyoto University
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KUMON Takeo
Department of Industrial Chemistry, Kantogakuin University
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Kumon Takeo
Department Of Industrial Chemistry Kantogakuin University
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Nakamura Yoshiyuki
Research Laboratory Of Resources Utilization Tokyo Institute Of Technology
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MATSUOKA Tomonori
Department of Applied Chemistry, National Defense Academy
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KAMEJIMA Atsuko
Research Laboratory, Lintec Co.
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IIDA Takahisa
Department of Industrial Chemistry, Faculty of Engineering, Kanto Gakuin University
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Iida Takahisa
Department Of Industrial Chemistry Faculty Of Engineering Kanto Gakuin University
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Nishikubo Tadatomi
Department Of Applied Chemistry Faculty Of Engineering Kanagawa University
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IIDA Takahisa
Department of Chemistry and Biotechnology, Graduate School of Engineering, Tottori University
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SHIMADA TADAHITO
Department of Gastroenterology, Dokkyo University School of Medicine
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Yamamoto Shin-ichi
Department Of Applied Chemistry National Defense Academy
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Endo Takeshi
Department Of Biology Faculty Of Science Chiba University
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Moriya Osamu
Department Of Chemistry The National Defense Academy
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KOIZUMI Toshio
Department of Applied Chemistry, The National Defense Academy
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Koizumi T
Asahi Chemical Ind. Co. Ltd. Osaka Jpn
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Koizumi Toshio
Department Of Applied Chemistry The National Defense Academy
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Tanaka Yorihisa
Department Of Drug Metabolism And Pharmacokinetics Tohoku Pharmaceutical University
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MATSUI Asami
Department of Chemistry, National Defense Academy
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Matsui Asami
Department Of Chemistry National Defense Academy
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TAKUSHIMA Hiroyuki
Department of Applied Chemistry, National Defense Academy
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HONJOU Genki
Department of Applied Chemistry, National Defense Academy
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YAMAMOTO Syota
Department of Applied Chemistry, National Defense Academy
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IWAKURA Ken
Department of Industrial Chemistry, Kantogakuin University
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MAEDA Jun
Research Laboratory, Lintec Co.
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SUGIZAKI Toshio
Lintec Co., Ltd.
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SEKIYA Tomohiro
Department of Industrial Chemistry, Faculty of Engineering, Kanto Gakuin University
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SUGIZAKI Toshio
Department of Industrial Chemistry, Faculty of Engineering, Kanto Gakuin University
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Honjou Genki
Department Of Applied Chemistry National Defense Academy
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URATA Yoshikiyo
Department of Chemistry, The National Defense Academy
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NOJIMA Yoshiaki
Research Laboratory of Resources Utilization, Tokyo Institute of Technology
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NAGAEI Takashi
Department of Industrial Chemistry, Faculty of Engineering, Kanto Gakuin University
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AKIIKE Kunio
Department of Industrial Chemistry, Faculty of Engineering, Kanto Gakuin University
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YATABE Jun
Teikyo Science University
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Yamamoto Shin-ichi
Department Of Applied Chemistry National Defence Academy
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Iwakura Ken
Department Of Industrial Chemistry Kantogakuin University
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Akiike Kunio
Department Of Industrial Chemistry Faculty Of Engineering Kanto Gakuin University
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Nagaei Takashi
Department Of Industrial Chemistry Faculty Of Engineering Kanto Gakuin University
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Maeda Jun
Research Laboratory Lintec Co.
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Takushima Hiroyuki
Department Of Applied Chemistry National Defense Academy
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Hayashi Toshiyuki
Department Of Applied Chemistry National Defence Academy
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Tanaka Yorihisa
Department Of Applied Chemistry National Defense Academy
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AIZAWA Yusuke
Department of Applied Chemistry, National Defense Academy
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KAWABATA Katsuyuki
Department of Applied Chemistry, National Defence Academy
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Urata Yoshikiyo
Department Of Chemistry The National Defense Academy
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Nojima Yoshiaki
Research Laboratory Of Resources Utilization Tokyo Institute Of Technology
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Shimada Tadahito
Department Of Applied Chemistry National Defense Academy
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Aizawa Yusuke
Department Of Applied Chemistry National Defense Academy
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Kawabata Katsuyuki
Department Of Applied Chemistry National Defence Academy
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Kawabata Katsuyuki
Department of Advanced Materials Science, Graduate School of Frontier Sciences, The University of Tokyo, 5-1-5 Kashiwanoha, Kashiwa, Chiba 277-8561, Japan
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MIYASAKA Yohei
Department of Applied Chemistry, National Defense Academy
著作論文
- Synthesis of thermoresponsive polysilsesquioxane with methoxyethylamide group and crown ether
- A New Amphiphilic and Thermoresponsive Polysilsesquioxane Having Alkoxyethylamide Group
- Synthesis of Mesoporous Silicate Gel from Tributylstannyl Ester of Polymeric Silicic Acid and Chlorosilane
- Synthesis of Polyester Modified Silica Gel from Polymeric TributyIstannyl Ester of Silicic Acid and ε-Caprolactone
- Preparation of Organofunctionalized Silica Gel from Polymeric Tributylstannyl Ester of Silicic Acid and Dichlorosilane
- Thermoresponsive polysilsesquioxane grafted methacrylate polymer with a methoxyethylamide group
- Synthesis of Grafted Polysilsesquioxane by Ring-Opening Polymerization of Lactide
- Preparation of Thermoresponsive Grafted Polysilsesquioxane from Polyacrylamides Having Methoxysilyl End Group
- Preparation of Stimuli-responsive Polysilsesquioxane Grafted Block Copolymer of Acrylamide Monomers
- Preparation of Amphiphilic Polysilsesquioxane by Grafting of Block Copolymer of Acrylamide Monomers
- Polymerization of Vinyl Ether by Use of Yttrium Silicate Gel as Solid Acid
- Ring Opening Polymerization of Oxetane by Use of Silicate Gel of Rare Earth Metal
- Graft Polymerization of Dimethylacrylamide onto Polysilsesquioxane Containing Mercapto Groups
- Synthesis of Graft Copolymer from Polysilsesquioxane Initiated by Photoiniferter
- Synthesis of Organofunctionalized Silica Gel from TributyIstannylated Silicic Acid and Acyl Chloride
- A Facile Preparation of Polysiloxane Containing Tributyltin Group as Efficient Protection Group
- Radical Ring-Opening Polymerization Beavior of Halogenated Pheny1-3-vinyloxiranes
- Synthesis of Silica Gel Containing Dibutyltin Group from Sodium Metasilicate and Dibutyltin Compound
- Synthesis of grafted polysilsesquioxane by ring-opening polymerization of lactide and trimethylene carbonate
- Aldol Addition of Dimethylsilyl Enolate in the Presence of Polyisocyanate with Alkali Metal Salt Catalyst
- Fixation of Carbon Dioxide into Polysilsesquioxane Containing Glycidyl Groups
- Synthesis of Polyisoxazolines via 1,3 - Dipolar Cycloaddition Using O,O'-Bis(tributylstannl)ether of Isophthalaldoxime
- Graft polymerization of acrylamide monomers from polysilsesquioxane containing xanthate groups