Construction, Self-assembly, and Functionalization of Mesogen-jacketed Liquid Crystalline Polymers

Hou Ping-ping; Zhang Zhen-yu; Ping Jing; Shen Zhi-hao; Fan Xing-he; Zhou Qi-feng

doi:10.11777/j.issn1000-3304.2017.17116

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Construction, Self-assembly, and Functionalization of Mesogen-jacketed Liquid Crystalline Polymers

Reviews | 更新时间：2021-01-26

- Construction, Self-assembly, and Functionalization of Mesogen-jacketed Liquid Crystalline Polymers
- Acta Polymerica Sinica Issue 10, Pages: 1591-1608(2017)
- 作者机构：
  
  北京分子科学国家实验室高分子化学与物理教育部重点实验室软物质科学与工程中心北京大学化学与分子工程学院北京 100871
- 作者简介：
- 基金信息：
- DOI：10.11777/j.issn1000-3304.2017.17116
  CLC：
- Published：2017-10，
  
  Received：2 May 2017，
  
  Revised：15 June 2017，
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Hou Ping-ping, Zhang Zhen-yu, Ping Jing, Shen Zhi-hao, Fan Xing-he, Zhou Qi-feng. Construction, Self-assembly, and Functionalization of Mesogen-jacketed Liquid Crystalline Polymers. [J]. Acta Polymerica Sinica (10):1591-1608(2017)
DOI：

Hou Ping-ping, Zhang Zhen-yu, Ping Jing, Shen Zhi-hao, Fan Xing-he, Zhou Qi-feng. Construction, Self-assembly, and Functionalization of Mesogen-jacketed Liquid Crystalline Polymers. [J]. Acta Polymerica Sinica (10):1591-1608(2017) DOI： 10.11777/j.issn1000-3304.2017.17116.

摘要

甲壳型液晶高分子的发展很大程度上依赖于聚合物自组装的发展，而各种可设计、可预测、可调控的自组装策略的涌现，将甲壳型液晶高分子研究推向前所未有的高度，同时也极大地丰富了高分子化学与物理的内容，提升了研究水准.研究表明，侧链“甲壳效应”在调控甲壳型液晶高分子有序结构等方面有着重要作用.本综述从甲壳型液晶高分子设计合成、液晶相态调控、嵌段共聚物自组装和功能化应用等方面，总结和评述了近年来该领域国内的最新研究进展.最后，本综述总结了甲壳型液晶高分子在发展中所面临的主要问题，并对其发展趋势进行了展望.

Abstract

The concept of mesogen-jacketed liquid crystalline polymers (MJLCPs) was proposed by Prof. Qifeng Zhou in the late 1980s

as the third approach for the design of liquid crystalline polymers (LCPs). MJLCPs are side-chain polymers with some physical properties similar to those of main-chain LCPs. They are rigid or semi-rigid polymers with controllable shapes (rods or sheets) and sizes. MJLCPs can be prepared by controlled polymerizations such as different living free radical polymerizations and ring-opening metathesis polymerization

and thus their chain lengths can be easily adjusted. The diameter of a rod-like MJLCP or the width of a sheet-like MJLCP can be tuned by changing the size of the side chain. MJLCPs can self-organize into supramolecular columnar liquid crystalline (LC) phases for rod-like MJLCPs or smectic LC phases for sheet-like MJLCPs. They can be used as the rigid backbone to construct homopolymers with hierarchically self-assembled structures

such as main-chain/side-chain combined LCPs. In addition

the rod-like MJLCP with tunable length and diameter provides an excellent building block in forming novel LC block copolymers that can self-assemble into hierarchical nanostructures. MJLCPs can also be used as side chains in polymer brushes and other polymers with special architectures. Furthermore

various functional materials have been also developed based on MJLCPs

including homopolymers

block copolymers

and polymer brushes. The development in MJLCPs largely benefits from the advancement of macromolecular self-assembly. Various designable

predictable

and controllable self-assembly strategies have elevated the level of research on MJLCPs

which also broadens the content of polymer chemistry and polymer physics. The results show that the "jacketing" effect of side chains plays an important role in regulating the ordered structures of MJLCPs. In this review

we mainly discuss the recent development in the design

synthesis

control of liquid crystalline phases

self-assembly of block copolymers

and properties and application of the MJLCP-based functional materials in China. Finally

challenges in the field of MJLCPs are summarized

and prospects for further development are presented.

关键词

甲壳型液晶高分子超分子液晶相态自组装软物质

Keywords

Mesogen-jacketed liquid crystalline polymer (MJLCP)Supramolecular liquid crystalline phaseSelf-assemblySoft matter

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State Key Laboratory of Chemical Resource Engineering, Beijing Advanced Innovation Center for Soft Matter Science and Engineering, Beijing University of Chemical Technology

Department of Polymer Science and Engineering, University of Massachusetts, Amherst

Shanghai Key Laboratory of Advanced Polymeric Materials, School of Materials Science and Engineering, East China University of Science and Technology

College of Textile Science and Engineering, Jiangnan University

School of Materials Science and Engineering, East China University of Science and Technology

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