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A Degradable and Self-Healable Vitrimer Based on Non-isocyanate Polyurethane.


ABSTRACT: Developing degradable and self-healable elastomers composed of reusable resources is of great value but is rarely reported because of the undegradable molecular chains. Herein, we report a class of degradable and self-healable vitrimers based on non-isocyanate polyurethane elastomer. Such vitrimers are fabricated by copolymerizing bis(6-membered cyclic carbonate) and amino-terminated liquid nitrile rubber. The networks topologies can rearrange by transcarbonation exchange reactions between hydroxyl and carbonate groups at elevated temperatures; as such, vitrimers after reprocessing can recover 82.9-95.6% of initial tensile strength and 59-131% of initial storage modulus. Interestingly, the networks can be hydrolyzed and decarbonated in the strong acid solution to recover 75% of the pure di(trimethylolpropane) monomer. Additionally, the elastomer exhibits excellent self-healing efficiency (~88%) and fracture strain (~1,200%) by tuning the monomer feeding ratio. Therefore, this work provides a novel strategy to fabricate the sustainable elastomers with minimum environmental impact.

SUBMITTER: Wu H 

PROVIDER: S-EPMC7604760 | biostudies-literature | 2020

REPOSITORIES: biostudies-literature

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A Degradable and Self-Healable Vitrimer Based on Non-isocyanate Polyurethane.

Wu Haitao H   Jin Biqiang B   Wang Hao H   Wu Wenqiang W   Cao Zhenxing Z   Wu Jinrong J   Huang Guangsu G  

Frontiers in chemistry 20201016


Developing degradable and self-healable elastomers composed of reusable resources is of great value but is rarely reported because of the undegradable molecular chains. Herein, we report a class of degradable and self-healable vitrimers based on non-isocyanate polyurethane elastomer. Such vitrimers are fabricated by copolymerizing <i>bis</i>(6-membered cyclic carbonate) and amino-terminated liquid nitrile rubber. The networks topologies can rearrange by transcarbonation exchange reactions betwee  ...[more]

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