Scientists Develop Powerful New Material That Can Eliminate Hospital Pathogens on Demand - Video

Scientists at Empa in Switzerland have developed ultra-thin graphene-based coatings that can neutralise dangerous hospital pathogens using infrared light. The innovation targets rising antimicrobial resistance, where conventional antibiotics and existing coatings are losing effectiveness.

Built using Graphene oxide combined with polyvinyl alcohol, the transparent coating can be applied to medical devices without altering their structure. Early tests showed it eliminated nearly 100% of one drug-resistant bacterial strain and over 90% of another, outperforming traditional metal-based antimicrobial coatings, reports Indian Defence Review.

The coating works through a light-activated mechanism. When exposed to infrared light, it generates heat and reactive oxygen molecules that damage microbial cells. This process can be switched on or off and controlled in intensity, offering precision treatment. Researchers are now exploring its use in dental implants in collaboration with the University of Zurich, aiming to prevent infections at implant sites. While clinical application may take years, this technology represents a promising step toward safer, more effective infection control in modern healthcare.