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Full Poly(ethylene glycol) Hydrogels with High Ductility and Self-Recoverability

Pengfei Ge, Qiuquan Cai, Hongjie Zhang, Xuxia Yao, Weipu Zhu

2020ACS Applied Materials & Interfaces31 citationsDOI

Abstract

Energy dissipation is a common mechanism to improve the ductility of polymeric hydrogels. However, for poly(ethylene glycol) (PEG) hydrogels, it is not easy to dissipate energy, as polymer chains are dispersed in water without strong interchain interactions or decent entanglement. The brittleness limits the real applications of PEG hydrogels, although they are promising candidates in biomedical fields, as PEG has been approved by the U.S. Food and Drug Administration. Herein, we chemically introduced a center for energy dissipation in the PEG hydrogel system. Amphiphilic segmented PEG derivatives were designed through the melt polycondensation of triethylene glycol (PEG150) and high molecular weight PEG in the presence of succinic acid and mercaptosuccinic acid as dicarboxylic acids. Full PEG hydrogels with elastic nanospheres as giant cross-linkers were facilely prepared by the self-assembly of esterified PEG150 segments and the oxidation of mercapto groups. The resultant full PEG hydrogels can dissipate energy by the deformation of elastic nanospheres with outstanding ductility and self-recoverability while maintaining the excellent biocompatibility owing to their full PEG components. This work provides an original strategy to fabricate full PEG hydrogels with high ductility and self-recoverability, potentially applicable in biomedical fields.

Topics & Concepts

Self-healing hydrogelsEthylene glycolMaterials sciencePEG ratioDuctility (Earth science)PolymerBiocompatibilityChemical engineeringNanotechnologyPolymer chemistryComposite materialCreepFinanceMetallurgyEngineeringEconomicsHydrogels: synthesis, properties, applicationsAdvanced Sensor and Energy Harvesting MaterialsAdvanced Materials and Mechanics
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