Solvent-free, supersoft and superelastic bottlebrush melts and networks

Autor: William F. M. Daniel, Andrey V. Dobrynin, Jaroslaw Paturej, Joanna Burdynska, Sergei S. Sheiko, Krzysztof Matyjaszewski, Michael Rubinstein, Mohammad Vatankhah-Varnoosfaderani
Rok vydání: 2015
Předmět:
Zdroj: Nature Materials. 15:183-189
ISSN: 1476-4660
1476-1122
DOI: 10.1038/nmat4508
Popis: Solvent-free, supersoft and superelastic polymer melts and networks made from bottlebrush macromolecules can display low modulus, high strain at break, and extraordinary elasticity. Polymer gels are the only viable class of synthetic materials with a Young’s modulus below 100 kPa conforming to biological applications1,2,3, yet those gel properties require a solvent fraction4,5,6,7. The presence of a solvent can lead to phase separation, evaporation and leakage on deformation, diminishing gel elasticity and eliciting inflammatory responses in any surrounding tissues. Here, we report solvent-free, supersoft and superelastic polymer melts and networks prepared from bottlebrush macromolecules. The brush-like architecture expands the diameter of the polymer chains, diluting their entanglements without markedly increasing stiffness. This adjustable interplay between chain diameter and stiffness makes it possible to tailor the network’s elastic modulus and extensibility without the complications associated with a swollen gel. The bottlebrush melts and elastomers exhibit an unprecedented combination of low modulus (∼100 Pa), high strain at break (∼1,000%), and extraordinary elasticity, properties that are on par with those of designer gels8,9.
Databáze: OpenAIRE
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