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High-Performance Recyclable and Malleable Epoxy Resin with Vanillin-Based Hyperbranched Epoxy Resin Containing Dual Dynamic Bonds

Yanxin Hao, Liuyue Zhong, Tingcheng Li, Junheng Zhang, Daohong Zhang

2023ACS Sustainable Chemistry & Engineering109 citationsDOI

Abstract

Dynamic covalent polymer networks represent new opportunities in the design of sustainable epoxy resins due to their excellent malleability and reprocessability; however, the adaptable network is usually accompanied by low glass transition temperature, poor creep resistance, and mechanical brittleness. Herein, we demonstrate a vanillin-based hyperbranched epoxy resin (VEHBP) containing disulfide and imine dynamic covalent bonds for recyclable and malleable epoxy resin with high glass transition temperature ( T g ), significantly improved creep resistance, and mechanical properties. The dynamic covalent epoxy resin containing 5%VEHBP exhibited a high glass transition temperature of 175 °C and a creep temperature of 130 °C and a 34.1, 19.7, and 173.3% increase in tensile strength, storage modulus, and tensile toughness respectively, compared with the neat resin. Meanwhile, the hyperbranched topological structure of VEHBP complemented by dual dynamic bonds endowed these materials with excellent self-healing ability, reprocessability, and degradability, which represents an important step toward the design and fabrication of high-performance epoxy covalent adaptable networks.

Topics & Concepts

EpoxyGlass transitionMaterials scienceCovalent bondDynamic mechanical analysisToughnessComposite materialUltimate tensile strengthPolymerVanillinImineChemistryOrganic chemistryCatalysisPolymer composites and self-healingCovalent Organic Framework ApplicationsSynthetic Organic Chemistry Methods
High-Performance Recyclable and Malleable Epoxy Resin with Vanillin-Based Hyperbranched Epoxy Resin Containing Dual Dynamic Bonds | Litcius