Issue 38, 2024, Issue in Progress

High ion barrier hydrogel with excellent toughness achieved by directional structures

Abstract

Owing to their nontoxicity, environmental friendliness, and high biocompatibility, physically cross-linked hydrogels have become popular research materials; however, their high water content and high free volume, along with the weak bonding interactions inherent to ordinary physically cross-linked hydrogels, limit their application in fields such as flexible devices, packaging materials, and substance transport regulation. Here, a structural barrier approach based on directional freezing-assisted salting out was proposed, and the directional structure significantly enhanced the barrier performance of the hydrogel. When the direction of substance diffusion was perpendicular to the pore channel structure of the directional freezing-PVA hydrogel (DFPVA), the Cl transmission rate was 57.2% for the uniform freezing-PVA hydrogel (UFPVA). By adjusting the concentration of the salting-out solution and the salting-out time, the crystallinity and crystal domain size of the hydrogel could be further changed, optimizing and regulating the barrier performance of the hydrogel, with the best Cl unit permeability being 36.02 mg mm per cm2 per day. Additionally, DFPVA had excellent mechanical properties (stress of 6.47 ± 1.04 MPa, strain of 625.85 ± 61.58%, toughness of 25.77 ± 3.72 MPa). Due to the barrier and mechanical properties of the direct structure, DFPVA is suitable as a drug carrier for slow drug release in vitro.

Graphical abstract: High ion barrier hydrogel with excellent toughness achieved by directional structures

Supplementary files

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Article information

Article type
Paper
Submitted
03 Jul 2024
Accepted
18 Aug 2024
First published
30 Aug 2024
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2024,14, 27555-27564

High ion barrier hydrogel with excellent toughness achieved by directional structures

Z. Yang, Z. Zhao, D. Yang, L. Zhu, Z. Qiu, Y. Wu, C. Lan, W. Jiang, G. Li, B. Zhong, J. Wei, T. Liu and H. Xie, RSC Adv., 2024, 14, 27555 DOI: 10.1039/D4RA04822A

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