Ultrarobust subzero healable materials enabled by polyphenol nano-assemblies
Sichuan University · Ingenierie des Materiaux polymeres
Abstract
Bio-inspired self-healing materials hold great promise for applications in wearable electronics, artificial muscles and soft robots, etc. However, self-healing at subzero temperatures remains a great challenge because the reconstruction of interactions will experience resistance of the frozen segments. Here, we present an ultrarobust subzero healable glassy polymer by incorporating polyphenol nano-assemblies with a large number of end groups into polymerizable deep eutectic solvent elastomers. The combination of multiple dynamic bonds and rapid secondary relaxations with low activation energy barrier provides a promising method to overcome the limited self-healing ability of glassy polymers, which can rarely…
Citation impact
- FWCI
- 20.90
- Percentile
- 100%
- References
- 54
Authors
3Topics & keywords
- Materials science
- Artificial muscle
- Polymer
- Elastomer
- Nanotechnology
- Self-healing
- Adhesion
- Nano-
- Affordable and clean energy