Nakano Tamaki | Department Of Applied Chemistry Graduate School Of Engineering Nagoya University
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概要
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- 同名の論文著者
- Department Of Applied Chemistry Graduate School Of Engineering Nagoya Universityの論文著者
関連著者
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Nakano Tamaki
Department Of Applied Chemistry Graduate School Of Engineering Nagoya University
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Okamoto Yoshio
Department Of Applied Chemistry Faculty Of Engineering Nagoya University
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Okamoto Yoshio
Department Of Applied Chemistry Graduate School Of Engineering Nagoya University
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Okamoto Yoshio
Department Of Electrical Engineering Chiba Institute Of Technology
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OKAMOTO Yoshio
Department of Applied Chemistry, Graduate School of Engineering, Nagoya University
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NAKANO Tamaki
Department of Applied Chemistry, School of Engineering, Nagoya University
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HIDAKA Yasuaki
Department of Applied Chemistry, Graduate School of Engineering, Nagoya University
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Hidaka Yasuaki
Department Of Applied Chemistry Graduate School Of Engineering Nagoya University
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畑田 耕一
大阪大学基礎工学部
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畑田 耕一
大阪大学基礎工学部合成化学科
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Hatada Koichi
Department Of Chemistry Faculty Of Engineering Science Osaka University
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YAMADA Kazunobu
Joint Research Center for Precision Polymerization (JRCPP)-Japan Chemical Innovation Institute (JCII
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Ichida Fumitaka
Department Of Fixed Prosthodontics Division Of Oral And Maxillofacial Regeneration Course In Integra
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Yamada K
Joint Research Center For Precision Polymerization (jrcpp)-japan Chemical Innovation Institute (jcii
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KINJO Naotaka
Department of Applied Chemistry, Graduate School of Engineering, Nagoya University
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Shikisai Yoshifumi
Department Of Applied Chemistry School Of Engineering Nagoya University
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Kinjo Naotaka
Department Of Applied Chemistry Graduate School Of Engineering Nagoya University
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Hisada Kunihiro
Department Of Fixed Prosthodontics Division Of Oral And Maxillofacial Regeneration Course In Integra
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岡本 佳男
名古屋大学
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Okamoto Yasuaki
Department Of Materials Science Shimane University
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Okamoto Yoshio
Ecotopia Science Institute Nagoya University
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岡本 佳男
阪大基礎工
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Matsuda A
Nagoya Univ. Nagoya Jpn
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Yamashita Kenji
Department Of Electrical And Electronic Engineering The University Of Tokushima
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MORI Masatoshi
Department of Management Engineering, Kinki University
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Yatani Hirofumi
Department Of Fixed Prosthodontics
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Yatani Hirofumi
Department Of Fixed Prosthodontics Division Of Oral And Maxillofacial Regeneration Course In Integra
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Taniguchi Kyoichi
Department Of Applied Chemistry School Of Engineering Nagoya University
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Mori Masatoshi
Department Of Electronic Engineering Nagasaki University
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Satoh Yoichi
Department Of Applied Chemistry Graduate School Of Engineering Nagoya University.
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Yamada Shinichi
Department of Pediatric Surgery, Graduate School of Medicine, Chiba University
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Nishimura Riko
Department Of Molecular And Cellular Biochemistry Osaka University Graduate School Of Dentistry
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Mori M
Department Of Applied Chemistry School Of Engineering Nagoya University
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NATSUDA Akihiro
Department of Applied Chemistry, School of Engineering, Nagoya University
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LIU Weihong
Joint Research Center for Precision Polymerization (JRCPP)-Japan Chemical Innovation Institute (JCII
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OKAMOATO Yoshio
Department of Applied Chemistry, Graduate School of Engineering, Nagoya University
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Makita Ken-ichi
Department Of Applied Chemistry Graduate School Of Engineering Nagoya University
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Nakano Tamaki
Department Of Fixed Prosthodontics Division Of Oral And Maxillofacial Regeneration Course In Integra
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Nakano Tamaki
Department Of Applied Chemistry School Of Engineering Nagoya University
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EGUCHI Soju
Department of Fixed Prosthodontics, Division of Oral and Maxillofacial Regeneration, Course in Integ
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HISADA Kunihiro
Department of Fixed Prosthodontics, Division of Oral and Maxillofacial Regeneration, Course in Integ
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Yoneda Toshiyuki
Department Of Biochemistry Osaka University Faculty Of Dentistry Division Of Endocrinology And Metab
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Matsubara Takuma
Department Of Molecular And Cellular Biochemistry Osaka University Graduate School Of Dentistry
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SHIKISAI Yoshifumi
Department of Applied Chemistry, School of Engineering, Nagoya University
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Yamashita Kenji
Department Of Bioscience And Biotechnology Fuculty Of Engineering Okayama University
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Yamashita Kenji
Department Of Fixed Prosthodontics Division Of Oral And Maxillofacial Regeneration Course In Integra
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Yamada Shinichi
Department Of Pediatric Surgery Graduate School Of Medicine Chiba University
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Eguchi Soju
Department Of Fixed Prosthodontics Division Of Oral And Maxillofacial Regeneration Course In Integra
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MATSUDA Akihiro
Department of Applied Chemistry, School of Engineering, Nagoya University
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LIU Wanjun
Polymer Physics Laboratory, Institute of Chemistry, Chinese Academy of Sciences
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Okamoto Yoshio
Department Of Applied Chemistry Graduate School Of Engineering Nagoya University.
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Liu Wanjun
Polymer Physics Laboratory Institute Of Chemistry Chinese Academy Of Sciences
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Mori Masatoshi
Department Of Chest Surgery Ehime Prefectural Central Hospital
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Yamada Shinichi
Department Of Fixed Prosthodontics Division Of Oral And Maxillofacial Regeneration Course In Integra
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Hata Kenji
Department Of Biological Sciences Graduate School Of Science And Engineering Tokyo Metropolitan Univ
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Natsuda Akihiro
Department Of Applied Chemistry School Of Engineering Nagoya University
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Yamada Kazunobu
Joint Research Center for Precision Polymerization (JRCPP)-Japan Chemical Innovation Institute (JCII), Graduate School of Engineering, Nagoya University
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YAMADA SHINICHI
Department of Anesthesiology, Kurume University School of Medicine
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MORI Masatoshi
Department of Applied Chemistry, School of Engineering, Nagoya University
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OKAMOTO Yoshio
Department of Applied Chemistry, School of Engineering, Nagoya University
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HISADA Kunihiro
Department of Molecular and Cellular Biochemistry, Osaka University Graduate School of Dentistry
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ORIMO Hideo
Division of Metabolism and Nutrition, Department of Biochemistry and Molecular Biology, Nippon Medical School
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YATANI Hirohumi
Department of Fixed Prosthodontics, Osaka University Graduate School of Dentistry
著作論文
- Asymmetric Anionic Polymerization of 1-Phenyldibenzosuberyl and 1-(2-Pyridyl)dibenzosuberyl Methacrylates and Chiral Recognition Ability of the Obtained Polymers
- Synthesis of Syndiotactic Poly(vinyl alcohol)from Fluorine-Containing Vinyl Esters
- Stereospecific polymerization of vinyl acetate in fluoroalcohols : Synthesis of syndiotactic poly(vinyl alcohol)
- Asymmetric Polymerization of Dipheny1-3-pyridylmethyl Methacrylate Leading to Optically Active Polymer with Helical Conformation and Chiral Recognition Ability of the Polymer
- Immediate Loading of Implants in a Completely Edentulous Maxilla Using Flapless Surgery
- Stereochemistry of Free-Radical Polymerization of Bulky Vinyl Esters
- Helix-Sense-Selective Free Radical Polymerization of 1-Phenyldibenzosubery1 Methacrylate
- Asymmetric Anionic and Free-Radical Polymerization of 10,10-Dimethyl-and 10,10-Dibutyl-9-pheny1-9,10-dihydroanthracen-9-yl Methacrylate Leading to Single-Handed Helical Polymers
- Asymmetric Polymerization of Triphenylmethyl Methacrylate Using 9-Alkyl-9-fluorenyllithium-(-)-Sparteine Complexes. Influence of Organolithium Structure on the Propagation Stereochemistry
- Termination Stereochemistry in Asymmetric Anionic Polymerization of Triphenylmethyl Methacrylate. Methylation and Protonation of Oligomer Anions
- Pronounced Effects of Temperature and Monomer Concentration on Isotactic Specificity of Triphenylmethyl Methacrylate Polymerization through Free Radical Mechanism. Thermodynamic versus Kinetic Control of Propagation Stereochemistry
- Stereochemistry of Acrylate Polymerization in Toluene Using n-BuLi
- Helix-Sense-Selective and Enantiomer-Selective Polymerization of a Chiral Methacrylate by Anionic and Free-Radical Mechanisms
- Asymmetric Polymerization of 9-Phenylfluoren-9-yl Methacrylate Leading to a Polymer with Main-Chain Configurational Chirality. Synthesis of Optically Active Poly (methyl methacrylate)
- Asymmetric Polymerization of 1-(3-Pyridyl)dibenzosuberyl Methacrylate and Chiral Recognition by the Obtained Optically Active Polymer Having Single-Handed Helical Conformation
- Helix-Sense-Selective Polymerization of 1-Phenyldibenzosuberyl Methacrylate by Free Radical Mechanism.
- Retinoic acid regulates commitment of undifferentiated mesenchymal stem cells into osteoblasts and adipocytes