Broad interest in develo** new hemostatic technologies arises from unmet needs in
mitigating uncontrolled hemorrhage in emergency, surgical, and battlefield settings …

Gelatin's versatile functionalization offers prospects of facile and effective crosslinking as
well as combining with other materials (eg, metal nanoparticles, carbonaceous, minerals …

Injectable hydrogels with biodegradability have in situ formability which in vitro/in vivo allows
an effective and homogeneous encapsulation of drugs/cells, and convenient in vivo surgical …

Being responsive and adaptive to external stimuli is an intrinsic feature characteristic of all
living organisms and soft matter. Specifically, responsive polymers can exhibit reversible or …

The development of adhesive materials, such as cyanoacrylate derivatives, fibrin glues, and
gelatin-based adhesives, has been an emerging topic in biomaterial science because of the …

The conjugation of biomolecules can impart materials with the bioactivity necessary to
modulate specific cell behaviors. While the biological roles of particular polypeptide …

Injectable hydrogels have become an incredibly prolific area of research in the field of tissue
engineering and regenerative medicine, because of their high water content, mechanical …

With the rapid progress of biomedical technology, hydrogels that can be prepared under bio-
friendly conditions are urgently needed. In situ gelling systems have been extensively …

Chitosan–poly (ethylene glycol)–tyramine (CPT) hydrogels were rapidly formed in situ using
horseradish peroxidase and hydrogen peroxide to explore their performance as efficient …

In this study, an enzymatically cross-linked injectable and biodegradable hydrogel system
comprising carboxymethyl pullulan-tyramine (CMP-TA) and chondroitin sulfate-tyramine (CS …