Recyclable, Healable, and Tough Ionogels Insensitive to Crack Propagation
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Abstract
Most gels and elastomers introduce sacrificial bonds in the covalent network to dissipate energy. However, long-term cyclic loading caused irreversible fatigue damage and crack propagation cannot be prevented. Furthermore, because of the irreversible covalent crosslinked networks, it is a huge challenge to implement reversible mechanical interlocking and reorganize the polymer segments to realize the recycling and reuse of ionogels. Here, covalent crosslinking of host materials is replaced with entanglement. The entangled microdomains are used as physical crosslinking while introducing reversible bond interactions. The interpenetrating, entangled, and elastic microdomains of linear segments and…
Citation impact
261
total citations
- FWCI
- 17.66
- Percentile
- 100%
- References
- 40
Citations per year
Authors
8Topics & keywords
Topics
Keywords
- Materials science
- Covalent bond
- Elastomer
- Composite material
- Polymer
- Interlocking
- Structural engineering
UN Sustainable Development Goals
- Affordable and clean energy
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