Hydrogen Bonding Dissipating Hydrogels: the Influence of Network Structure Design on Structure-Property Relationships.

Hydrogels made with semi-interpenetrating networks of the oligomerized polyphenol tannic acid, and poly(acrylamide), exhibit high stiffness and toughness. However, the structure property relationships that give rise to enhanced mechanical properties is not well understood. Herein, we systematically inves-tigate the hydrogels using small angle X-ray scattering and small and Ultra-small angle neutron scatter-ing within a wide length scale range (1 nm to 20 lm), polarized optical microscopy, and rheology. Small angle X-ray and neutron scattering reveal the presence of micron sized hydrogen bonded clusters in the hydrogels. Breaking of hydrogen bonded clusters above a critical solution temperature was clearly observed in the small angle neutron scattering data. Polarized optical microscopy show enhanced aniso-tropy for the gels with oligomerized tannic acid incorporated -when compared to gels with monomeric tannic acid. Rheological studies at varying temperatures nicely corroborate the structural changes observed at high temperatures and reveal a self-healing behavior of the gels. The knowledge gained from this study will aid in rational design of hydrogels for biomedical applications.(c) 2022 Elsevier Inc. All rights reserved.