Closed-loop recyclable polymers: from monomer and polymer design to the polymerization–depolymerization cycle

IF 40.4 1区 化学 Q1 CHEMISTRY, MULTIDISCIPLINARY
Shuaiqi Yang, Shuai Du, Jin Zhu and Songqi Ma
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Abstract

The extensive utilization of plastic, as a symbol of modern technological society, has consumed enormous amounts of finite and non-renewable fossil resources and produced huge amounts of plastic wastes in the land or ocean, and thus recycling and reuse of the plastic wastes have great ecological and economic benefits. Closed-loop recyclable polymers with inherent recyclability can be readily depolymerized into monomers with high selectivity and purity and repolymerized into polymers with the same performance. They are deemed to be the next generation of recyclable polymers and have captured great and increasing attention from academia and industry. Herein, we provide an overview of readily closed-loop recyclable polymers based on monomer and polymer design and no-other-reactant-involved reversible ring-opening and addition polymerization reactions. The state-of-the-art of circular polymers is separately summarized and discussed based on different monomers, including lactones, thiolactones, cyclic carbonates, hindered olefins, cycloolefins, thermally labile olefin comonomers, cyclic disulfides, cyclic (dithio) acetals, lactams, Diels–Alder addition monomers, Michael addition monomers, anhydride–secondary amide monomers, and cyclic anhydride–aldehyde monomers, and polymers with activatable end groups. The polymerization and depolymerization mechanisms are clearly disclosed, and the evolution of the monomer structure, the polymerization and depolymerization conditions, the corresponding polymerization yield, molecular weight, performance of the polymers, monomer recovery, and depolymerization equipment are also systematically summarized and discussed. Furthermore, the challenges and future prospects are also highlighted.

Abstract Image

Abstract Image

闭环可回收聚合物:从单体和聚合物设计到聚合-解聚循环。
作为现代科技社会的象征,塑料的广泛使用消耗了大量有限的、不可再生的化石资源,并在陆地或海洋中产生了大量的塑料废弃物,因此塑料废弃物的回收和再利用具有巨大的生态和经济效益。闭环可回收聚合物本身具有可回收性,可以很容易地解聚成具有高选择性和高纯度的单体,并重新聚合成具有相同性能的聚合物。它们被认为是新一代可回收聚合物,受到学术界和工业界越来越多的关注。在此,我们将概述基于单体和聚合物设计以及无其他反应物参与的可逆开环和加成聚合反应的易闭环可回收聚合物。根据不同的单体,包括内酯、硫内酯、环碳酸盐、受阻烯烃、环烯烃、热易变烯烃共聚物,分别总结和讨论了循环聚合物的最新进展、环二硫化物、环(二硫)乙缩醛、内酰胺、Diels-Alder 加成单体、Michael 加成单体、酐-仲酰胺单体和环酐-醛单体,以及带有可活化末端基团的聚合物。此外,还清楚地披露了聚合和解聚机理,并系统地总结和讨论了单体结构的演变、聚合和解聚条件、相应的聚合收率、分子量、聚合物性能、单体回收和解聚设备。此外,还重点介绍了面临的挑战和未来前景。
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来源期刊
Chemical Society Reviews
Chemical Society Reviews 化学-化学综合
CiteScore
80.80
自引率
1.10%
发文量
345
审稿时长
6.0 months
期刊介绍: Chemical Society Reviews is published by: Royal Society of Chemistry. Focus: Review articles on topics of current interest in chemistry; Predecessors: Quarterly Reviews, Chemical Society (1947–1971); Current title: Since 1971; Impact factor: 60.615 (2021); Themed issues: Occasional themed issues on new and emerging areas of research in the chemical sciences
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