This research develops self-sterilising polymer coatings that become highly acidic when exposed to moisture, rapidly destroying harmful bacteria such as MRSA and E. coli. Designed for hospitals, classrooms, and other high-contact surfaces, these materials could reduce infections without harsh chemicals, helping prevent the spread of antibiotic-resistant bacteria.

This research investigates how MRSA loses its antibiotic resistance by shedding the SCCmec genetic element. Environmental stressors such as heat and dryness increase this vulnerability, while antibiotics alone reinforce resistance. Understanding these mechanisms could enable new strategies to reverse resistance and improve treatment options for life-threatening MRSA infections.

This research searches for new antibiotics in deep-sea sponge bacteria that have evolved for 580 million years to defend their hosts. By growing these never-before-seen microbes and testing them against superbugs like MRSA, the project aims to discover urgently needed antibiotics to combat rising antimicrobial resistance.