Polyurethane networks based on disulfide bonds: from tunable multi-shape memory effects to simultaneous self-healing

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Abstract

With the prompt development in intellectualization nowadays, the smart materials with multi-functionality or multi-responsiveness are highly expected. But it is a big challenge to integrate the different actuating units into a single system in a synergy pattern. Herein, we put forward a new strategy to develop the polyurethane networks which can present shape-memory effect and self-healing effect in independent way as well as simultaneous acting mode. To realize this goal, poly(tetremethylene ether) glycol was chosen as the soft segment to ensure the polymer chains a good mobility, and disulfide bond as the dynamic covalent bond was embedded in the backbone of polyurethane to endow it with desirable self-healing capacity under mild condition. Moreover, a rational control of the architecture of the networks by adjusting the content of disulfide bond and the degree of cross-linking, a broad glass transition temperature (T g ) was achieved, which enabled the network a versatile shape-memory effect, covering from dual-, triple- so far as to quadruple-shape memory effect. More importantly, the shape recovery and healing process can be realized simultaneously because of the highly matched actuating condition in this system.

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Deng, X. Y., Xie, H., Du, L., Fan, C. J., Cheng, C. Y., Yang, K. K., & Wang, Y. Z. (2019). Polyurethane networks based on disulfide bonds: from tunable multi-shape memory effects to simultaneous self-healing. Science China Materials, 62(3), 437–447. https://doi.org/10.1007/s40843-018-9318-7

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