共价键
聚脲
异氰酸酯
聚合物
催化作用
动态共价化学
材料科学
胺气处理
尿素
合理设计
化学工程
高分子化学
化学
有机化学
纳米技术
聚氨酯
分子
工程类
超分子化学
作者
Hanze Ying,Yanfeng Zhang,Jianjun Cheng
摘要
Polymers bearing dynamic covalent bonds may exhibit dynamic properties, such as self-healing, shape memory and environmental adaptation. However, most dynamic covalent chemistries developed so far require either catalyst or change of environmental conditions to facilitate bond reversion and dynamic property change in bulk materials. Here we report the rational design of hindered urea bonds (urea with bulky substituent attached to its nitrogen) and the use of them to make polyureas and poly(urethane-urea)s capable of catalyst-free dynamic property change and autonomous repairing at low temperature. Given the simplicity of the hindered urea bond chemistry (reaction of a bulky amine with an isocyanate), incorporation of the catalyst-free dynamic covalent urea bonds to conventional polyurea or urea-containing polymers that typically have stable bulk properties may further broaden the scope of applications of these widely used materials. The design of dynamic covalent bonds is crucial to self-healing polymer materials, but the reaction normally occurs in the presence of heat or/and catalysts. Ying et al.report a catalyst-free design of dynamic urea bonds that are capable of autonomous repairing at low temperature.
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