热固性聚合物
共聚物
丙烯酸酯
固化(化学)
材料科学
二硫键
聚合物
硫黄
高分子化学
胶粘剂
紫外线
化学工程
有机化学
化学
聚酯纤维
作者
Hongxin Yao,Yongkang Zuo,Hongjun Yang,Jikai Zhang,Wenyan Huang,Guangzhao Zhang
标识
DOI:10.1002/anie.202525322
摘要
ABSTRACT Thermoset polymers have found a number of applications. However, their recycling faces a challenge due to their chemically crosslinked structure, which brings environmental pollution. Introduction of dynamic disulfide linkages can overcome this obstacle in principle. Yet, the disulfide compounds used to build the dynamic bonds are very limited and expensive, making their practical applications rather difficult. In this study, we present copolymer of elemental sulfur (S 8 ) and acrylate with controlled disulfide linkages synthesized via anionic hybrid copolymerization (AHCP). Such a copolymer can serve as a curing agent for conventional thermosetting resins including epoxy, polyurethane, and unsaturated polyester. The resulting thermoset demonstrates remarkable reprocessability, retaining over 86% of its maximum stress and strain at break after five cycles of processing at 120°C and pressure of 10 MPa. It also exhibits strong UV‐blocking capability with zero transmittance in the ultraviolet range. Particularly, the thermoset is recyclable. Namely, it can degrade into oligomers in the presence of S 8 , which can be reused as curing agents for new thermosets or directly employed as robust adhesives for diverse substrates. The precise synthesis of polymer with controlled disulfide linkages provides a platform to transform conventional thermosets into high‐performance recyclable materials.
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