Advances in hyperbranched polymer chemistry

IF 2.4 3区 化学 Q3 POLYMER SCIENCE
Aleksei Maksimov, Bulat Yarullin, Kharlampii Kharlampidi, Gennadii Kutyrev
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Abstract

Hyperbranched polymers are densely packed macromolecules whose three-dimensional framework consists of a core and three or more branched short composite chains, namely dendrons. They have a spherical architecture and unique properties, such as nanoscale macromolecules (2–100 nm), high solubility, the presence of several branched chains, spatial voids and a large number of end functional groups. Various classes of hyperbranched polymers in the last 10 years such as polyalkanes, polyarylenes, polyhalides, organometallic polymers, polyethers, polyesters, nitrogen-containing and polyheterocyclic compounds are reviewed. These polymers can be readily obtained under mild conditions by polymerization, polycondensation or polycoupling reactions of polyfunctional monomers. The main characteristics confirming the hyperbranched structure of polymers are: low molecular weight, dispersity, medium degree of branching, large number of end functional groups, nanoscale macromolecules, three-dimensional architecture, presence of glass transition temperature, high solubility in various organic solvents, and low viscosity of polymer solutions. Due to their adaptable structures and special properties, hyperbranched polymers are widely used as hybrid materials and composites for structural applications, coatings, adhesives, membranes, catalysts, flame retardants, plasticizers, and light-emitting materials. The hyperbranched structure combined with low toxicity allows their use as highly effective nanoscale anticancer and bactericidal drugs, as well as contrast reagents for magnetic resonance tomography. The availability of technologically significant methods for the synthesis of hyperbranched polymers of various types makes it possible to carry out their industrial production on a scale sufficient for practical application in solving modern problems of biomedical chemistry and in many other branches of science and industry.

Graphical abstract

Abstract Image

超支化聚合物化学研究进展
超支化聚合物是一种高密度大分子,其三维框架由一个核心和三个或三个以上的支化短复合链(即树枝状链)组成。它们具有球形结构和独特的性质,如纳米级大分子(2-100 纳米)、高溶解性、存在多个支链、空间空隙和大量末端官能团。本文综述了过去 10 年中出现的各类超支化聚合物,如聚烷烃、聚芳烯烃、聚卤化物、有机金属聚合物、聚醚、聚酯、含氮和多杂环化合物。这些聚合物可以在温和的条件下通过多官能团单体的聚合、缩聚或偶联反应轻易获得。超支化聚合物结构的主要特征包括:低分子量、分散性、中等支化程度、大量末端官能团、纳米级大分子、三维结构、玻璃化温度、在各种有机溶剂中的高溶解度以及聚合物溶液的低粘度。由于超支化聚合物具有适应性强的结构和特殊性能,因此被广泛用作结构应用、涂料、粘合剂、膜、催化剂、阻燃剂、增塑剂和发光材料的混合材料和复合材料。超支化结构和低毒性使其可用作高效的纳米级抗癌和杀菌药物,以及磁共振断层扫描的对比试剂。合成各种类型超支化聚合物的重要技术方法的出现,使其工业化生产的规模足以实际应用于解决现代生物医学化学以及许多其他科学和工业分支的问题。
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来源期刊
Iranian Polymer Journal
Iranian Polymer Journal 化学-高分子科学
CiteScore
4.90
自引率
9.70%
发文量
107
审稿时长
2.8 months
期刊介绍: Iranian Polymer Journal, a monthly peer-reviewed international journal, provides a continuous forum for the dissemination of the original research and latest advances made in science and technology of polymers, covering diverse areas of polymer synthesis, characterization, polymer physics, rubber, plastics and composites, processing and engineering, biopolymers, drug delivery systems and natural polymers to meet specific applications. Also contributions from nano-related fields are regarded especially important for its versatility in modern scientific development.
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