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A facile method to synthesize strong salt-enhanced hydrogels based on reversible physical interaction


To overcome the adverse effects of salt on the mechanical properties of hydrogels, a facile double cross-linking method has been proposed to synthesize salt-enhanced tough hydrogels. Herein, a poly (hexafluorobutyl methacrylate-acrylamide) hydrogel [P(AAm-co-HFBMA) hydrogel] is prepared by the copolymerization of acrylamide (AAm) and hexafluorobutyl methacrylate (HFBMA) with N, N'-methylene bisacrylamide (NMBA) as a cross-linking agent in a Dimethyl Formamide(DMF )/aqueous solution; the DMF is then replaced by water. The results indicate that the tensile fracture stress of the P(AAm-co-HFBMA) hydrogel (20 mol% HFBMA) is as high as 0.43 MPa, which is far better than that of the PAAm hydrogel (ca. 30 kPa). Additionally, with a further increase in the hydrophobic structural units (25 mol% HFBMA), the tensile fracture stress of P(AAm-co-HFBMA) hydrogel can be increased up to 2.34 MPa. The mechanical strength of the P(AAm-co-HFBMA) hydrogel is significantly enhanced to 3.50 MPa (2 M) from 2.34 MPa (0 M) after it is soaked in aqueous NaCl solutions with various salt concentrations. The mechanical properties and the results of the DSC analysis indicate that the main reason its mechanical strength exhibits a unique salt-enhancement trend can be explained as follow. After the P(AAm-co-HFBMA) hydrogel is soaked in the salt solution, the network gradually collapses with the penetration of the small molecules of salt. Thus, the hydrophobic C-F units easily form dynamic cross-linking junctions due to the switchable hydrophobic interaction between C-F groups, which can endow a more effective dynamic energy dissipating mechanism to the P(AAm-co-HFBMA) hydrogel in salt solution.

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Publication details

The article was received on 23 Sep 2019, accepted on 22 Nov 2019 and first published on 25 Nov 2019

Article type: Paper
DOI: 10.1039/C9SM01912J
Soft Matter, 2019, Accepted Manuscript

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    A facile method to synthesize strong salt-enhanced hydrogels based on reversible physical interaction

    B. Zhang, C. Wang, Y. Wang, T. Li, K. Zhai, F. Zhang, Y. Bai, Y. Tan, Y. Ma, K. Xu and P. Wang, Soft Matter, 2019, Accepted Manuscript , DOI: 10.1039/C9SM01912J

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