Mechanically strong and tough hydrogels with pH-triggered self-healing and shape memory properties based on a dual physically crosslinked network

文献信息

发布日期 2020-01-27
DOI 10.1039/C9PY01862J
影响因子 5.582
作者

Tao Liu, Shaoshuang Zou, Chen Hang, Jian Li, Xiang Di, Xiaohui Li, Qiang Wu, Fenfen Wang


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摘要

Physically crosslinked hydrogels with a reversible nature have attracted much attention in recent decades due to their fascinating self-recovery and self-healing properties, but the low mechanical strength hinders their development for many stress-bearing applications. In this study, inspired by the multiple supramolecular interactions in nature including hydrogen bonding and ionic bonds, we proposed a simple strategy to fabricate high-performance dual physically crosslinked D-hydrogels, which is triggered by the self-complementary quadruple hydrogen bonding interactions between 2-ureido-4[1H]-pyrimidinone (UPy) dimers and Fe3+ ionic coordination bonds as the dynamic sacrificial crosslinkers, thus obviously enhancing the mechanical strength and toughness. Due to the synergistic effect of the two types of physical crosslinking interactions, the D-hydrogels exhibit outstanding mechanical properties, such as a tensile strength of 7.9 MPa, an elastic modulus of 6.9 MPa, and an elongation at break of 541%, with an optimized structure. Furthermore, these reversible dual physical crosslinks enable the D-hydrogels to efficiently dissipate energy with a high toughness (up to 29 MJ m−3) while imparting good self-recovery properties, a pH-triggered healing capability and pH-responsive shape memory to the network. This dual physically crosslinked hydrogel with excellent mechanical performance as well as good recovery and self-healing properties will hopefully be exploited as a promising candidate for various biomedical applications.

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来源期刊

Polymer Chemistry

Polymer Chemistry
CiteScore: 8.6
自引率: 7.3%
年发文量: 457

Polymer Chemistry welcomes submissions in all areas of polymer science that have a strong focus on macromolecular chemistry. Manuscripts may cover a broad range of fields, yet no direct application focus is required.

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