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One‐pot preparation of tough, anti‐swelling, antibacterial and conductive multiple‐crosslinked hydrogels assisted by phytic acid and ferric trichloride

Zhilang Liu, Zhao‐Qing Liu, Bo Shu, Cuixia Lian, Jialin Wu, Qing Wen, Jiahuan Wu, Zhuohong Yang, Wuyi Zhou, Yang Hu

2023Journal of Applied Polymer Science19 citationsDOIOpen Access PDF

Abstract

Abstract The flexible biodegradable polymer hydrogels have attracted increasing attention in the exploration of multifarious biomedical applications. However, conveniently achieving the synergistic characteristics of favorable mechanical performance, anti‐swelling behavior, antibacterial activity and conductivity into a biodegradable hydrogel remains a significant challenge. In this aspect, we report a facile one‐pot approach to prepare the multiple‐crosslinked PVA (PVA/PA‐Fe) hydrogels assisted by phytic acid (PA) and ferric trichloride. Firstly, PVA polymer chains and PA molecules form hydrogen bonds, meanwhile PA molecules interact with Fe 3+ ions by ionic coordinations. Then, PVA polymer chains are crystallized by forming hydrogen bonds after cyclic freeze–thaw process. Based on the synergistic interactions of multiple hydrogen bonds and ionic coordinations in hydrogel system, PVA/PA‐Fe hydrogels possess favorable tensile strength (1222.72 kPa), toughness (1.82 MJ/m 3 ) and anti‐swelling properties. Moreover, the introduction of PA and ferric trichloride successfully endows hydrogel with outstanding antimicrobial activity. Furthermore, the existence of H + ions ionized by PA, Fe 3+ and Cl − ions originating from ferric trichloride provides hydrogel with ionic conductivity (4.91 S/m) and strain responsiveness. Thus, the facile one‐pot preparation approach basing on the multiple‐crosslinked strategy would broaden the path for preparation of multifunctional hydrogels with promising biomedical applications, particularly smart flexible strain sensors.

Topics & Concepts

Self-healing hydrogelsFerricMaterials sciencePolymerSwellingHydrogen bondPolymer chemistryChemical engineeringIonic bondingMoleculeUltimate tensile strengthChemistryIonOrganic chemistryComposite materialEngineeringMetallurgyHydrogels: synthesis, properties, applicationsAdvanced Sensor and Energy Harvesting MaterialsElectrospun Nanofibers in Biomedical Applications
One‐pot preparation of tough, anti‐swelling, antibacterial and conductive multiple‐crosslinked hydrogels assisted by phytic acid and ferric trichloride | Litcius