Molecular anisotropy and rearrangement as mechanisms of toughness and extensibility in entangled physical gels
Abstract
Dynamic networks formed by physically crosslinked, entangled polymers have emerged as self-healing, stretchable, and functional materials. Entangled associative gels with remarkable toughness and extensibility have been produced by several distinct chemical approaches, suggesting that these enhanced mechanical properties result from molecular-scale topology. Previously, artificially engineered associative proteins were designed to provide an...
Paper Details
Title
Molecular anisotropy and rearrangement as mechanisms of toughness and extensibility in entangled physical gels
Published Date
Jan 27, 2020
Journal
Volume
4
Issue
1
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