Safer touch with antiviral coatings

Antiviral coatings based on nanomaterials could help reduce the risk of transmission of infectious diseases, according to new work in the International Journal of Surface Science and Engineering. The Indian team has reviewed the state-of-the-art in the context of COVID-19.

We now know the causative agent in the ongoing COVID-19 pandemic, SARS-CoV-2, is most commonly transmitted through the air from coughs and sneezes, and even just the talking and breathing of one infected person to another. However, a secondary path for transmission involves, fomites, droplets containing viral particles that have impinged on a surface that another person may touch and so pick up the infection.

Manoj Raula and Sucheta Sengupta of Amity University in Noida, India, have reviewed nanomaterials that might be used to coat surfaces that people commonly touch in the work environment, in public places, and even in the home. Nanocoatings have been developed to coat glass and plastic as well as cotton fabrics, for instance. The team’s review covers metal and metal oxide nanomaterials and how they might be used as antiviral coatings. Examples of nanoparticles being studied include precious metal nanoparticles, gold, silver, and copper, as well as materials such as perovskites.

While the world of antibacterial coatings has moved rapidly in recent years, it was the advent of COVID-19 that provided an initial motivation for the development of antiviral coatings. Such materials could have wide-ranging efficacy against other viruses, such as influenza viruses too. Events and circumstances have overtaken our concerns regarding COVID-19 transmission, however, innovation in antiviral coatings will not be wasted given the likelihood of as yet unimagined future emerging viruses exploiting fomites as a major route for their transmission.

Raula, M. and Sengupta, S. (2022) ‘Recent development of antiviral nano-coatings for COVID-19 management – a review’, Int. J. Surface Science and Engineering, Vol. 16, No. 4, pp.317–334.