Based in fundamental materials science, the group synthesizes cytocompatible and cell-instructive biomaterials, often from biopolymers (e.g., hyaluronic acid) that are crosslinked into water-swollen ...

Besides being soft, these hydrogels are also remarkably tough. They can endure compression without permanently losing shape ...

Recent advancements in gel science have further boosted their potential, enabling the creation of durable, self-healing ...

The study’s findings indicate that lignin-based hydrogels can serve as a cost-effective, biocompatible, and mechanically resilient solution for wound healing applications. Furthermore ...

Newly developed lignin-based hydrogel proves to be a promising tool for wound healing and controlled drug release, according to a new study. With the rising demand for advanced wound healing and ...

Researchers from Queen Mary University of London and the University of Nottingham have developed a biocooperative material ...