Title

Recovery property of double-network hydrogel containing mussel-inspired adhesive moiety and nano-silicate

Document Type

Article

Publication Date

9-14-2016

Abstract

Although double network (DN) hydrogels are extremly tough, they are irreversibly softened during large strain deformation. We incorporated a mussel-inspired adhesive moiety, catechol, and a synthetic nano-silicate, LAPONITE®, into DN to examine the effect of strong, reversible crosslinks on the DN's ability to recover its mechanical properties during successive loading cycles. The introduction of catechol and LAPONITE® drastically increased the compressive strength and toughness of DN without compromising the compliance of the hydrogel. After 2 hours of recovery at room temperature, the nanocomposite DN hydrogel recovered over 95 and 82% of its strain energy and hysteresis, respectively, during the successive compressive loading to a strain of 0.5. Both equilibrium swelling and oscillatory rheometry data confirmed that there were minimal changes in the network crosslinking density and stiffness after large strain compressive deformation, indicating that mechanical loading did not result in irreversible structural damage. Strong catechol–LAPONITE® interactions can be repeatedly broken and reformed to dissipate fracture energy and enable the recovery of DN hydrogels.

Publisher's Statement

© 2016 The Royal Society of Chemistry. Publisher's version of record: https://doi.org/10.1039/C6TB01828A

Publication Title

Journal of Materials Chemistry B

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