Issue 26, 2019

High strength hydrogels with multiple shape-memory ability based on hydrophobic and electrostatic interactions

Abstract

Hydrogels with multiple shape-memory ability have aroused great interest due to their promising applications in various fields. Nevertheless, the weak mechanical performance of most shape-memory hydrogels seriously impedes the practical application in more complex environments. Herein, we reported a novel hydrogel with both high mechanical and multi-shape memory properties composed of stearyl methacrylate (SMA), acrylic acid (AA) and quaternary chitosan (QCH). The electrostatic interactions between AA and QCH together with the hydrophobic interactions of alkyl chains in SMA endowed the hydrogel with great strain–stress and fatigue resistance. Furthermore, due to the reversible destruction and construction of physical cross-links, the prepared hydrogels also exhibited the shape-memory ability in response to different stimuli, such as temperature, pH and NaCl solution. Additionally, the multiple shape-memory effect could be accomplished via programmable combination because of the relatively independent physical interactions in the hydrogels.

Graphical abstract: High strength hydrogels with multiple shape-memory ability based on hydrophobic and electrostatic interactions

Supplementary files

Article information

Article type
Paper
Submitted
30 Apr 2019
Accepted
28 May 2019
First published
30 May 2019

Soft Matter, 2019,15, 5264-5270

High strength hydrogels with multiple shape-memory ability based on hydrophobic and electrostatic interactions

H. Jing, L. He, J. Feng, H. Fu, S. Guan and P. Guo, Soft Matter, 2019, 15, 5264 DOI: 10.1039/C9SM00869A

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