Polyurethanes (PUs) are a major family of polymers displaying a wide spectrum of physico-
chemical, mechanical and structural properties for a large range of fields. They have shown …

Degradable polymers (both biomacromolecules and several synthetic polymers) for
biomedical applications have been promising very much in the recent past due to their low …

Hydrogels, being highly biocompatible and adaptable with biological tissues, have shown
great usability in biomedical applications. In this research, a novel hydrogel film developed …

In this study, silk fibroin and hyaluronic acid (HA) were enzymatically crosslinked to form
biocompatible composite hydrogels with tunable mechanical properties similar to that of …

Biocompatible and degradable dual‐delivery gel systems based on hyperbranched
dendritic− linear− dendritic copolymers (HBDLDs) is herein conceptualized and …

Conventional 3D printing may not readily incorporate bioactive ingredients for controlled
release because the process often involves the use of heat, organic solvent, or crosslinkers …

In tissue engineering, polyurethane-based implants have gained significant traction
because of their high compatibility and inertness. The implants therefore show fewer side …

The state-of-the-art on calcium orthophosphate (CaPO4)-containing biocomposites and
hybrid biomaterials suitable for biomedical applications is presented. Since these types of …

Hydrogels based on gelatin have evolved as promising multifunctional biomaterials. Gelatin
is crosslinked with lysine diisocyanate ethyl ester (LDI) and the molar ratio of gelatin and LDI …

Due to their mechanical properties, ranging from flexible to hard materials, polyurethanes
(PUs) have been widely used in many industrial and biomedical applications. PUs' …