Gelatin methacrylate (GelMA) hydrogels are the most widely used materials in biomedical applications due to their optimal biological properties and tunable physical characteristics. So far, various studies have been done to improve the properties of GelMA by hybridizing it with chitosan. However, the necessity of acidic solvents usage in these procedures challenges their synthesis process. Herein, we develop an innovative green method to synthesize a novel GelMA hydrogel. In this study, carboxymethyl chitosan (CMC) has been used to modify gelatin to obtain photo-cross-linkable GelMA. The hydrogels with different amounts of N, Ń methylene bisacrylamide as a cross-linking agent were prepared by using the photopolymerization technique, and their chemical and physical properties were characterized. The FTIR spectral analysis and NMR analysis confirmed gelatin and CMC chemical modification and demonstrated GelMA/CMC hydrogel synthesis. Various studies for characterization of the GelMA/CMC hydrogels revealed the tunability of their physical and mechanical properties by changing the cross-linking agent concentration. The synthesized hydrogels exhibited a tailor-made porosity, good mechanical strength, high swelling ratio, and high thermal stability. In addition, the results of L929 fibroblast cell viability assays indicated their excellent biocompatibility. These findings introduce these hydrogels as promising, great candidates to use in various shapes and an extended range of medical applications such as tissue engineering scaffolds, delivery systems, and wound dressings.
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