As electronic devices get smaller, it's becoming harder to achieve high-quality connections that are both reliable and safe ...

Researchers at the Terasaki Institute for Biomedical Innovation (TIBI) have developed a revolutionary injectable granular ...

The polymer’s slow hydrolysis facilitates the sustained release of the immunogen, stabilizing the antigen encapsulated within the microspheres. As a result, microspheres ranging from 40 µm to 70 µm in ...

The polymer's slow hydrolysis facilitates the sustained release of the immunogen, stabilizing the antigen encapsulated within the microspheres. As a ...

Innovative Technology: The use of SINTX’s proprietary ceramic microsphere technology is expected to optimize dosing and enhance treatment precision to improve patient outcomes, positioning SINTX as a ...

Researchers from Queen Mary University of London created biodegradable, flexible, and electrically conductive nanocomposite ...

Sintx Technologies (SINT) announces the signing of a Joint Development Agreement with NED Medical, an innovative developer of oncology ...

Bath university spinout Naturbeads has secured £7.8m of series A funding to further advance its pioneering technology. The ...