Hydrogel microspheres,with their high water content and tunable physicochemical properties,have emerged as a promising class of materials for a myriad of biomedical applications.1 These microscale particles,which can ...Hydrogel microspheres,with their high water content and tunable physicochemical properties,have emerged as a promising class of materials for a myriad of biomedical applications.1 These microscale particles,which can be fabricated from both natural and synthetic polymers,exhibit diverse properties and bear a striking resemblance to the native extracellular matrix.2 This makes them highly suitable as substrates for cell culture,templates for tissue engineering,and vehicles for drug and protein delivery.展开更多
文摘Hydrogel microspheres,with their high water content and tunable physicochemical properties,have emerged as a promising class of materials for a myriad of biomedical applications.1 These microscale particles,which can be fabricated from both natural and synthetic polymers,exhibit diverse properties and bear a striking resemblance to the native extracellular matrix.2 This makes them highly suitable as substrates for cell culture,templates for tissue engineering,and vehicles for drug and protein delivery.
