Enabling
Design of Advanced Elastomer with Bioinspired Metal–Oxygen
Coordination
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Abstract
It
poses a huge challenge to expand the application gallery of rubbers
into advanced smart materials and achieve the reinforcement simultaneously.
In the present work, inspired by the metal–ligand complexations
of mussel byssus, ferric ion was introduced into an oxygen-abundant
rubber network to create additional metal–oxygen coordination
cross-links. Such complexation has been revealed to be highly efficient
in enhancing the strength and toughness of the rubbers. Significantly,
such complexation also enables the functionalization of the rubber
into highly damping or excellent multishape memory materials. We envision
that the present work offers an efficient yet facile way of creating
advanced elastomers based on industrially available diene-based rubber