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Fabrication of a High-Strength, Tough, Swelling-Resistant, Conductive Hydrogel via Ion Cross-Linking, Directional Freeze-Drying, and Rehydration

Jinni Luo, Huanxia Wang, Jinfei Wang, Chen Yuan, Chenglong Li, Kejun Zhong, Jie Xiang, Pengxiang Jia

2023ACS Biomaterials Science & Engineering36 citationsDOI

Abstract

Conductive hydrogels have been in huge demand in biomedical and wearable electronics. However, the application of traditional conductive hydrogels is largely limited due to their poor mechanical properties. Here, a conductive hydrogel with excellent mechanical strength and swelling resistance properties is prepared by ion cross-linking, directional freeze-drying, and rehydration. First, the acrylamide and acrylic acid are polymerized in the κ-carrageenan solution to form the hydrogel. Then, the obtained hydrogel is cross-linked with Fe 3+ by soaking in ferric chloride solution. Finally, the ionic cross-linked hydrogels are reinforced by directional freeze-drying and rehydration. The resulting hydrogel has excellent tensile strength (5.67 MPa) and high toughness (7.63 MJ/m 3 ). It is worth noting that the hydrogel also had excellent anti-swelling properties. Its mechanical strength and volume almost show no changes after soaking in deionized water for 40 days. In addition, the hydrogel exhibits good ionic conductivity (0.091 S/m), high sensitivity, and excellent stability when applied as a strain sensor. This work proposes a simple method to fabricate a conductive hydrogel with great mechanical properties and swelling resistance, which displays huge potential in varied fields.

Topics & Concepts

Self-healing hydrogelsMaterials scienceSwellingUltimate tensile strengthComposite materialToughnessElectrical conductorIonic strengthChemical engineeringPolymer chemistryAqueous solutionChemistryEngineeringPhysical chemistryAdvanced Sensor and Energy Harvesting MaterialsHydrogels: synthesis, properties, applicationsConducting polymers and applications
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