Polymer, Vol.53, No.9, 1805-1822, 2012
Super tough double network hydrogels and their application as biomaterials
The double network (ON) technique, developed by authors' group, provides an innovative and universal pass way to fabricate hydrogels with super high toughness comparable to rubbers. The excellent mechanical performances of ON hydrogels originate from the specific combination of two networks with contrasting structures. The first brittle network serves as sacrificial bonds, which breaks into small clusters to efficiently disperse the stress around the crack tip into the surrounding damage zone, while the second ductile polymer chains act as hidden length, which extends extensively to sustain large deformation. Based on the principle of ON hydrogel, the author's group recently has developed several novel systems and techniques, which has greatly expanded the practical accessibility of ON technique for practical use. The ON principle and the ON gel have already attracted much attention in the soft matter community. Inspired by the ON principle, many research groups have also designed and developed some innovative hydrogels with large enhancement in their mechanical strength and toughness. Some tough hydrogels fabricated by the ON technique also exhibit good biocompatibility and low friction resistance with promising prospective in industrial and medicine fields, especially for load-bearing artificial soft tissues such as artificial cartilage. In this feature article, we address the major concept and toughening mechanism of ON gel, then we describe some recent novel hydrogel systems based on the ON concept, and finally the applicability of ON gel as soft biomaterials is discussed. (C) 2012 Elsevier Ltd. All rights reserved.
Keywords:Double network principle;Damage zone;Bacterial cellulose;Voids structure;Microgel;Artificial cartilage