With the increasing consumption of non renewable resources such as oil, the traditional
polymer manufacturing industry that relies on fossil resources is facing unprecedented …

Epoxy vitrimers represent a new class of high-performance sustainable resins because of
their desired mechanical and thermally malleable properties. Unfortunately, existing epoxy …

Thermosets are widely used for their excellent properties, but their permanent cross-linking
makes them difficult to recycle. Covalent adaptive networks can address the recycling of …

Develo** recyclable and biobased thermosetting polymers is of great significance for
environmental protection and resource recycling. In this work, three liquid eugenol-based …

Thermosetting epoxy resins are frequently restricted by their inferior toughness,
nonprocessability, and nonrecyclability resulting from their permanently cross-linked …

The regulation of topological structure of covalent adaptable networks (CANs) remains a
challenge for epoxy CANs. Here, we report a strategy to develop strong and tough epoxy …

Comprehensive Summary Traditional carbon fiber‐reinforced polymers based on thermoset
matrix have been extensively used in the fields of wind turbine blades, automotive sector …

Biobased epoxy vitrimers (BEVs) offer a promising solution to the recyclability and resource
challenges associated with traditional epoxy thermosets. However, numerous existing BEVs …

Vitrimers are a class of advanced polymeric materials characterized by their dynamic
covalent networks, which offer unique properties such as self-healing, reprocessability, and …

Self-healing materials are the current focus of smart materials research. However, the
implementation of self-healing materials remains limited by the challenge of balancing …