Supramolecular polymers: Recent advances based on the types of underlying interactions

IF 26 1区 化学 Q1 POLYMER SCIENCE Progress in Polymer Science Pub Date : 2023-02-01 DOI:10.1016/j.progpolymsci.2022.101635
Hui-Qing Peng , Wenping Zhu , Wu-Jie Guo , Qingyun Li , Shixiang Ma , Christophe Bucher , Bin Liu , Xiaofan Ji , Feihe Huang , Jonathan L. Sessler
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引用次数: 11

Abstract

Supramolecular polymers are, in broad brushstrokes, self-assembled structures built up from small building blocks via the use of noncovalent interactions. In favorable cases, supramolecular polymers embody the best features of covalent polymers while displaying unique reversibility, responsiveness, adaptiveness, and stability. This has made them of interest across a wide variety of fields, from molecular devices to sensors, drug delivery, cell recognition, and environmentally friendly materials systems. This review is concerned with the determinants that underlie supramolecular polymer construction, specifically the driving forces that have been exploited to create them. To date, nearly the full range of known noncovalent interactions (e.g., hydrogen-bonding, electrostatic interactions, charge transfer effects, and metal coordination, among others) has been exploited to create supramolecular polymers. Typically, one or more types of interactions is used to link appropriately designed monomers. The choice of noncovalent interaction can have a significant influence on the structure and function of the resulting supramolecular polymers. Understanding the connections between the forces responsible for the assembly of supramolecular polymers and their properties provides the foundation for further advances in this fast-moving field. Given the above, this review will discuss recent progress in the rapidly advancing field of supramolecular polymers organized by the types of underlying interactions. An overview of future challenges and opportunities for supramolecular polymers, including their formation, characterization, and applications, is also provided.

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从广义上讲,超分子聚合物是通过使用非共价相互作用,由小块构建而成的自组装结构。在有利的情况下,超分子聚合物体现了共价聚合物的最佳特性,同时表现出独特的可逆性、响应性、适应性和稳定性。这使得它们在从分子设备到传感器、药物输送、细胞识别和环境友好材料系统等各种领域都引起了人们的兴趣。这篇综述是关于决定因素的基础上的超分子聚合物的结构,特别是驱动力已经被利用来创建它们。迄今为止,几乎所有已知的非共价相互作用(例如,氢键、静电相互作用、电荷转移效应和金属配位等)已被用于制造超分子聚合物。通常,使用一种或多种类型的相互作用来连接适当设计的单体。非共价相互作用的选择对所得超分子聚合物的结构和功能有重要影响。了解负责超分子聚合物组装的力及其性质之间的联系,为这一快速发展的领域的进一步发展奠定了基础。综上所述,本文将讨论快速发展的超分子聚合物领域的最新进展,并按潜在相互作用的类型进行组织。概述了未来超分子聚合物的挑战和机遇,包括它们的形成、表征和应用。
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来源期刊
Progress in Polymer Science
Progress in Polymer Science 化学-高分子科学
CiteScore
48.70
自引率
1.10%
发文量
54
审稿时长
38 days
期刊介绍: Progress in Polymer Science is a journal that publishes state-of-the-art overview articles in the field of polymer science and engineering. These articles are written by internationally recognized authorities in the discipline, making it a valuable resource for staying up-to-date with the latest developments in this rapidly growing field. The journal serves as a link between original articles, innovations published in patents, and the most current knowledge of technology. It covers a wide range of topics within the traditional fields of polymer science, including chemistry, physics, and engineering involving polymers. Additionally, it explores interdisciplinary developing fields such as functional and specialty polymers, biomaterials, polymers in drug delivery, polymers in electronic applications, composites, conducting polymers, liquid crystalline materials, and the interphases between polymers and ceramics. The journal also highlights new fabrication techniques that are making significant contributions to the field. The subject areas covered by Progress in Polymer Science include biomaterials, materials chemistry, organic chemistry, polymers and plastics, surfaces, coatings and films, and nanotechnology. The journal is indexed and abstracted in various databases, including Materials Science Citation Index, Chemical Abstracts, Engineering Index, Current Contents, FIZ Karlsruhe, Scopus, and INSPEC.
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