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Regulating Protein Secondary Structures Enables Versatile Hydrogels with Tunable Mechanical Properties

Zengkai Wang, Xiaolu Song, Xiangming Li, Xiaoyang Yue, Shuai Hou, Lei Liu

2022Chemistry of Materials25 citationsDOI

Abstract

Regulating the mechanical performance of a material, especially for protein hydrogels, in situ from elasticity to plasticity and vice versa would be difficult but highly anticipated due to the diversity of promising applications. Herein, we proposed a strategy to prepare versatile hydrogels with tunable mechanical properties. It was demonstrated that we could rapidly prepare regenerated silk fibroin/gelatin (RSF/Gel) copolymer hydrogels by chemically modifying RSF by glycidyl methacrylate (RSF-MA) and gelatin by methacrylic anhydride (Gel-MA) under UV light in 60 s. Furthermore, the RSF/Gel hydrogels showed tunable mechanical properties by controlling the β-sheet content of SF, which can realize reversible switch between elasticity and plasticity in situ. The significant alteration of tensile stress at break and tensile elastic modulus at 10% strain was achieved with 720 times and 2000 times improvement from an elastic to plastic hydrogel. The compressive elastic modulus at 50% strain of a plastic hydrogel was improved to 3.6 MPa, which was 62 times higher than that of an elastic hydrogel. In addition, the performance of drug release of RSF/Gel hydrogel microneedles could be modulated by controlling the β-sheet content of SF, which could be a drug carrier and also be other promising biomaterials for a variety of biological and clinical applications.

Topics & Concepts

Self-healing hydrogelsMaterials scienceGelatinUltimate tensile strengthElastic modulusMethacrylateComposite materialElasticity (physics)Young's modulusFibroinSILKCopolymerPolymerPolymer chemistryChemistryBiochemistrySilk-based biomaterials and applicationsHydrogels: synthesis, properties, applications3D Printing in Biomedical Research
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