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A sandcastle worm-inspired strategy to functionalize wet hydrogels

Donghui Zhang, Jingjing Liu, Qi Chen, Weinan Jiang, Yibing Wang, Jiayang Xie, Kaiqian Ma, Chao Shi, Haodong Zhang, Minzhang Chen, Jianglin Wan, Pengcheng Ma, Jingcheng Zou, Wenjing Zhang, Feng Zhou, Runhui Liu

2021Nature Communications68 citationsDOIOpen Access PDF

Abstract

Hydrogels have been extensively used in many fields. Current synthesis of functional hydrogels requires incorporation of functional molecules either before or during gelation via the pre-organized reactive site along the polymer chains within hydrogels, which is tedious for polymer synthesis and not flexible for different types of hydrogels. Inspired by sandcastle worm, we develop a simple one-step strategy to functionalize wet hydrogels using molecules bearing an adhesive dibutylamine-DOPA-lysine-DOPA tripeptide. This tripeptide can be easily modified with various functional groups to initiate diverse types of polymerizations and provide functional polymers with a terminal adhesive tripeptide. Such functional molecules enable direct modification of wet hydrogels to acquire biological functions such as antimicrobial, cell adhesion and wound repair. The strategy has a tunable functionalization degree and a stable attachment of functional molecules, which provides a tool for direct and convenient modification of wet hydrogels to provide them with diverse functions and applications.

Topics & Concepts

Self-healing hydrogelsTripeptidePolymerSurface modificationFunctional polymersMaterials scienceBiomoleculeMoleculeNanotechnologyCombinatorial chemistryChemistryPolymer chemistryPolymerizationOrganic chemistryPeptideBiochemistryPhysical chemistryComposite materialPolymer Surface Interaction StudiesSilk-based biomaterials and applicationsAdvanced Sensor and Energy Harvesting Materials
A sandcastle worm-inspired strategy to functionalize wet hydrogels | Litcius