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Recent advances in self-healing polyurethane based on dynamic covalent bonds combined with other self-healing methods

Ze-Wei An, Rui Xue, Kang Ye, Hui Zhao, Yang Liu, Peng Li, Zhenming Chen, Chongxing Huang, Guo‐Hua Hu

2023Nanoscale171 citationsDOI

Abstract

To meet more application requirements, improving mechanical properties and self-healing efficiency has become the focus of current research on self-healing PU. The competitive relationship between self-healing ability and mechanical properties cannot be avoided by a single self-healing method. To address this problem, a growing number of studies have combined dynamic covalent bonding with other self-healing methods to construct the PU structure. This review summarizes recent studies on PU materials that combine typical dynamic covalent bonds with other self-healing methods. It mainly includes four parts: hydrogen bonding, metal coordination bonding, nanofillers combined with dynamic covalent bonding and multiple dynamic covalent bond bonding. The advantages and disadvantages of different self-healing methods and their significant role in improving self-healing ability and mechanical properties in PU networks are analyzed. At the same time, the possible challenges and research directions of self-healing PU materials in the future are discussed.

Topics & Concepts

Self-healingCovalent bondMaterials scienceSelf-healing materialHydrogen bondNanotechnologyPolyurethaneConstruct (python library)Computer scienceComposite materialChemistryMoleculeMedicineOrganic chemistryPathologyProgramming languageAlternative medicinePolymer composites and self-healingPolydiacetylene-based materials and applicationsCarbon dioxide utilization in catalysis
Recent advances in self-healing polyurethane based on dynamic covalent bonds combined with other self-healing methods | Litcius