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1.

図書

図書
中川邦明 [ほか] 著
出版情報: 東京 : 朝倉書店, 2001.11  vii, 168p ; 21cm
シリーズ名: 科学技術入門シリーズ ; 5
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2.

図書

図書
edited by Shinichi Itsuno
出版情報: Hoboken, N.J. : Wiley, c2011  xx, 497 p., [8] p. of col. plates ; 25 cm
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Preface
Foreword
Contributors
An Overview of Polymer-Immobilized Chiral Catalysts and Synthetic Chiral Polymers / Shinichi Itsuno1:
Introduction / 1.1:
Polymeric Chiral Catalyst / 1.2:
Synthesis of Optically Active Polymers / 1.3:
Polymer-Immobilized Chiral Organocatalyst / Naoki Haraguchi2:
Synthesis of Polymer-immobilized Chiral Organocatalyst / 2.1:
Polymer-immobilized Cinchona Alkaloids / 2.3:
Other Polymer-immobilized Chiral Basic Organocatalysts / 2.4:
Polymer-immobilized Cinchona Alkaloid Quaternary Ammonium Salts / 2.5:
Polymer-immobilized MacMillan Catalysts / 2.6:
Polymer-immobilized Pyrrolidine Derivatives / 2.7:
Other Polymer-immobilized Chiral Quaternary Ammonium Salts / 2.8:
Polymer-immobilized Proline Derivatives / 2.9:
Polymer-immobilized Peptides and Poly(amino acid)s / 2.10:
Polymer-immobilized Chiral Acidic Organocatalysts / 2.11:
Helical Polymers as Chiral Organocatalysts / 2.12:
Cascade Reactions Using Polymer-immobilized Chiral Organocatalysts / 2.13:
Conclusions / 2.14:
Asymmetric Synthesis Using Polymer-Immobilized Proline Derivatives / Michelangelo Gruttadauria ; Francesco Giacalone ; Renato Noto3:
Polymer-supported Proline / 3.1:
Polymer-supported Prolinamides / 3.3:
Polymer-supported Proline-Peptides / 3.4:
Polymer-supported Pyrrolidines / 3.5:
Polymer-supported Prolinol and Diarylprolinol Derivatives / 3.6:
Conclusions and Outlooks / 3.7:
Peptide-Catalyzed Asymmetric Synthesis / Kazuaki Kudo ; Kengo Akagawa4:
Poly(amino acid) Catalysts / 4.1:
Tri- and Tetrapeptide Catalysts / 4.3:
Longer Peptides with a Secondary Structure / 4.4:
Others / 4.5:
Continuous Flow System using Polymer-Supported Chiral Catalysts / Santiago V. Luis ; Eduardo Garcia-Verdugo4.6:
Asymmetric Polymer-supported, Metal-based Catalysts and Reagents / 5.1:
Polymer-supported Asymmetric Organocatalysts / 5.3:
Polymer-supported Biocatalysts / 5.4:
Chiral Synthesis on Polymer Support: A Combinatorial Approach / Deepak B. Salunke ; Chung-Ming Sun5.5:
Chiral Synthesis of Complex Polyfunctional Molecules on Polymer Support / 6.1:
Synthesis and Application of Helical Polymers with Macromolecular Helicity Memory / Hiroki Iida ; Eiji Yashima6.3:
Macromolecular Helicity Memory / 7.1:
Enantioselective Reaction Assisted by Helical Polymers with Helicity Memory / 7.3:
Poly(isocyanide)s, Poly(quinoxaline-2,3-diyl)s, and Related Helical Polymers Used as Chiral Polymer Catalysts in Asymmetric Synthesis / Yuuya Nagata ; Michinori Suginome7.4:
Asymmetric Synthesis of Poly(isocyanide)s / 8.1:
Asymmetric Synthesis of Poly(quinoxaline)s / 8.3:
Enantioselective Catalysis using Helical Polymers / 8.4:
C2 Chiral Biaryl Unit-Based Helical Polymers and Their Application to Asymmetric Catalysis / Takeshi Maeda ; Toshikazu Takata8.5:
Synthesis of C2 Chiral Unit-based Helical Polymers / 9.1:
Asymmetric Reactions Catalyzed by Helical Polymer Catalysts / 9.3:
Immobilization of Multicomponent Asymmetric Catalysts (MACs) / Hiroaki Sasai ; Shinobu Takizawa9.4:
Dendrimer-Supported and Dendronized Polymer-supported MACs / 10.1:
Nanoparticles as Supports for Chiral Catalysts [13] / 10.3:
The Catalyst Analog Approach [24] / 10.4:
Metal-bridged Polymers as Heterogeneous Catalysts: An Immobilization Method for MACs Without Using Any Support [26] / 10.5:
Conclusion / 10.6:
Optically Active Polymer and Dendrimer Synthesis and Their Use in Asymmetric Synthesis / Qiao-Sheng Hu ; Lin Pu11:
Synthesis and Application of BINOL/BINAP-based Optically Active Polymers / 11.1:
Synthesis and Application of Optically Active Dendrimers / 11.3:
Asymmetric Polymerizations of N-Substituted Maleimides / Kenjiro Onimura ; Tsutomu Oishi11.4:
Chirality of 1-Mono- or 1,1-Disubstituted and 1,2-Disubstituted Olefins / 12.1:
Asymmetric Polymerizations of Achiral N-Substituted Maleimides / 12.3:
Anionic Polymerization Mechanism of RMI / 12.4:
Asymmetric Polymerizations of Chiral N-Substituted Maleimides / 12.5:
Structure and Absolute Stereochemistry of Poly(RMI) / 12.6:
Asymmetric Radical Polymerizations ofN-Substituted Maleimides / 12.7:
Chiral Discrimination Using Poly(RMI) / 12.8:
Synthesis of Hyperbranched Polymer Having Binaphthol Units via Oxidative Cross-Coupling Polymerization / Shigeki Habaue12.9:
Oxidative Cross-coupling Reaction between 2-Naphthol and 3-Hydroxy-2-naphthoate / 13.1:
Oxidative Cross-coupling Polymerization Affording Linear Poly(binaphthol) / 13.3:
Oxidative Cross-coupling Polymerization Leading to a Hyperbranched Polymer / 13.4:
Photoluminescence Properties of Hyperbranched Polymers / 13.5:
Optically Active Polyketones / Kyoko Nozaki13.6:
Asymmetric Synthesis of Isotactic Poly(propylene-alt-co) / 14.1:
Asymmetric Synthesis of Isotactic Syndiotactic Poly(styrene-alt-co) / 14.3:
Asymmetric Terpolymers Consisting of Two Kinds of Olefins and Carbon Monoxide / 14.4:
Asymmetric Polymerization of Other Olefins with CO / 14.5:
Chemical Transformations of Optically Active Polyketones / 14.6:
Conformational Studies on the Optically Active Polyketones / 14.7:
Synthesis and Function of Chiral p-Conjugated Polymers from Phenylacetylenes / Toshiki Aoki ; Takashi Kaneko ; Masahiro Teraguchi14.8:
Helix-sense-selective Polymerization (HSSP) of Substituted Phenylacetylenes and Function of the Resulting One-handed Helical Poly(phenylacetylene)s / 15.1:
Chiral Desubstitution of Side Groups in Membrane State / 15.3:
Synthesis of Chiral Polyradicals / 15.4:
P-Stereogenic Oligomers, Polymers, and Related Cyclic Compounds / Yasuhiro Morisaki ; Yoshiki Chujo16:
P-Stereogenic Oligomers Containing Chiral "P" Atoms in the Main Chain / 16.1:
P-Stereogenic Polymers Containing Chiral "P" Atoms in the Main Chain / 16.3:
Cyclic Phosphines Using P-Stereogenic Oligomers as Building Blocks / 16.4:
Index / 16.5:
Preface
Foreword
Contributors
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