聚合
聚合物
单体
高分子化学
动链长度
杂原子
共聚物
共轭体系
离子聚合
自由基聚合
材料科学
链生长聚合
钴介导的自由基聚合
产量(工程)
可逆加成-断裂链转移聚合
化学
光化学
链式转移
活性自由基聚合
阳离子聚合
开环聚合
活性聚合
本体聚合
“结束”组
戒指(化学)
作者
Maksym Odnoroh,Oleksandr Ivanchenko,Asja A. Kroeger,Michelle L. Coote,Stéphane Mazières,Mathias Destarac
摘要
Polymers bearing in-chain dithioketal groups are an emerging class of materials with specific properties like reactive oxygen species (ROS)-responsiveness and vitrimer-type behavior. Until now, these polymers have been exclusively produced by step-growth polymerization or polyaddition; herein, we report the first chain polymerization leading to dithioketal polymers. γ-dithiobutyrolactone (DTBL) is radically copolymerized with a series of conjugated monomers to yield copolymers with ring-retained dithioketal units exclusively. DFT calculations rationalize the contrasting behaviors of DTBL and its thionolactone analogue γ-thionobutyrolactone (TBL), highlighting how electronic effects of the ring heteroatoms govern propagation efficiency and ring-retention versus ring-opening pathways. The ability of DTBL to bring degradability to thermosets, latexes, and RAFT-derived complex architectures is revealed.
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