Fundamental Studies and Recent Advances in Anionic Polymerization: 4. Precise Synthesis of Macromolecules with Designed Architectures by Means of Living Anionic Polymerization

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  • SUGIYAMA Kenji
    Polymeric and Organic Materials Department, Graduate School of Science and Engineering, Tokyo Institute of Technology
  • HIRAO Akira
    Polymeric and Organic Materials Department, Graduate School of Science and Engineering, Tokyo Institute of Technology

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Other Title
  • アニオン重合の基礎から最近の進歩  4.リビングアニオン重合による特殊形態高分子の精密合成
  • トクロン コウザ アニオン ジュウゴウ ノ キソ カラ サイキン ノ シンポ 4 リビング アニオン ジュウゴウ ニ ヨル トクシュ ケイタイ コウブンシ ノ セイミツ ゴウセイ
  • 4. Precise Synthesis of Macromolecules with Designed Architectures by Means of Living Anionic Polymerization
  • 4. リビングアニオン重合による特殊形態高分子の精密合成

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Abstract

Recent advances in precise synthesis of macromolecules with specially designed architectures will be reviewed in this paper. Such designed macromolecules include graft copolymers, comb-like polymers, cyclic polymers, regular and asymmetric star-branched polymers, and a variety of hyperbranched polymers with complexed structures as well as block copolymers and chain-end-functionalized polymers synthesized by living (anionic) polymerization. Their architectures are well defined in branching, position, and shape and chain structures are precisely controlled in molecular weights and molecular weight distributions. Recently, new macromolecules with more complex branched architectures have been further synthesized along with rapid progress of living anionic polymerization and new development of living polymerization systems with different mechanisms. These are star-branched polymers with many arms and multi-components, highly dense comb-like polymers having one polymer segment in each unit, star-linear block polymers, comb-like graft and star polymers, dendritic hyperbranched polymers. A particular example is a seventhgeneration well-defined dendrimer-like star-branched polymer having a Mn of 2000000 and comprised of 508 polymer segments and 512 end-functionalities. They are characteristic and quite different from linear polymers in physical property and behavior in solution, melt, and solid state. Furthermore, their different segments are segregated and self-organized at molecular level to form novel nano-scale supra-structures and molecular assemblies.

Journal

  • NIPPON GOMU KYOKAISHI

    NIPPON GOMU KYOKAISHI 80 (3), 100-106, 2007

    THE SOCIRETY OF RUBBER SCIENCE AND TECHNOLOGYY, JAPAN

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