COVID shield: Spray coating to shield surfaces from viruses, bacteria

COVID shield: Spray coating to shield surfaces from viruses, bacteria

A first-of-its-kind sprayable coating that can prevent the surface spread of infection from bacteria and viruses — including COVID-19 — over a sustained period — has been developed by a team of Australian researchers.

Described in the journal Advanced Science, the spray works two ways: repelling viruses and bacteria through an air-filled barrier, and killing pathogens through microscopic materials if the layer becomes damaged or submerged for extended periods. The spray uses a combination of plastics strong enough to be considered an alternative to bullet-proof glass.

The coating provides a reliable alternative to standard disinfectants, which are becoming less effective and require regular reapplication, and is the only permanent surface layer proven to protect surfaces from contamination by viruses. It is safer than existing alternatives to disinfectant, with no harmful side effects and more stable potency — unlike the next most promising non-disinfectant agent that kills bacteria, silver nanoparticles.

The authors said the coating could be applied to surfaces in public settings such as lift buttons, stair rails, surfaces in hospitals, nursing homes, schools and restaurants, to prevent the spread of common viruses and bacteria.

Co-lead author University of Sydney’s School of Biomedical Engineering Professor Antonio Tricoli and Director of the University of Melbourne’s Graeme Clark Institute, Professor David Nisbet said the spread of viral and bacterial pathogens through contact with surfaces is a leading cause of infection worldwide. Surface contamination also plays a major role in the evolution of antibiotic-resistant bacterial strains.

“Without a barrier, viruses such as coronaviruses can stay on surfaces and remain infectious for up to a week. Other viruses such as reoviruses, which can cause colds or diarrhoea, for instance, can remain on surfaces for several weeks, causing large outbreaks in health and aged care facilities,” Professor Tricoli said.

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