| Literature DB >> 29235838 |
Wei-Peng Chen1,2, De-Zhao Hao3,4, Wan-Jun Hao1, Xing-Lin Guo2, Lei Jiang3.
Abstract
Self-healing hydrogels have a great potential application in 3D printing, soft robotics, and tissue engineering. There have been a large number of successful strategies for developing hydrogels that exhibit rapid and autonomous recovery. However, developing a gel with an excellent self-healing performance within several seconds is still an enormous challenge. Here, an ultrafast self-healing hydrogel based on an agarose/PVA double network (DN) is presented. The gel utilizing a dynamic borate bond exhibits 100% cure in strength and elongation after healing for 10 s in air, and this hydrogel shows an excellent self-healing property underwater as well. In addition, the agarose/PVA DN hydrogel exhibits a smart self-healing property for an in situ priority recovery, ensuring that the shape and the function are the same as those of the original one. With the combination of self-healing properties, such a hydrogel could be applied to a board range of areas.Entities:
Keywords: double-network hydrogels; dynamic borate bond; smart self-healing; ultra-fast; underwater
Year: 2017 PMID: 29235838 DOI: 10.1021/acsami.7b17118
Source DB: PubMed Journal: ACS Appl Mater Interfaces ISSN: 1944-8244 Impact factor: 9.229