eXPRESS Polymer Letters (Jan 2025)

Recyclable high-strength polybutadiene-based rubber with self-healing and shape memory properties via dynamic boronic ester and Diels-Alder chemistry

  • Shengao Yang,
  • Yan Wang,
  • Fang Wang,
  • Kaiyi Zhang,
  • Xinxin Lv,
  • Hao Teng,
  • Rui Zheng,
  • Faliang Luo,
  • Qian Xing

DOI
https://doi.org/10.3144/expresspolymlett.2025.7
Journal volume & issue
Vol. 19, no. 1
pp. 94 – 106

Abstract

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Dynamic cross-linked networks (DCNs) endow thermoset rubber with self-healability and recyclability to extend its lifetime and alleviate environmental pollution. However, the contradiction between high self-healing and mechanical properties in DCNs rubber is always difficult to be resolved. Herein, we used boronic ester (BO) and Diels-Alder dynamic covalent bonds (DA) to synthesize polybutadiene-based dual networks rubber (PB-BO-DA) via thiol-ene reaction. This approach achieved a tensile strength of 16.46 MPa and 99% self-healing efficiency, facilitated by extensive intermolecular interactions (π-π packing and N-B coordination) and fully dynamic cross-linking. In addition, multiple dynamic cross-linked networks (MDCNs) polybutadiene-based rubber also show excellent shape memory ability and recyclability. This strategy might open a helpful pathway to fabricate intelligent multifunctional polymers with high strength and high self-healing efficiency.

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