There may soon be a new weapon in the battle against Covid in the form of a durable coating, thanks to Indian-American researchers, that can quickly kill bacteria and viruses on surfaces, and keep killing them for six months or longer. The coating, which is clear and can be brushed or sprayed on, gets its durability and germ-killing power by combining tried-and-true ingredients in a novel way. According to the study led by Anish Tuteja, a professor of material science and engineering at the University of Michigan, published in the journal Matter, it uses antimicrobial molecules derived from tea tree oil and cinnamon oil, both used for centuries as safe and effective germ killers that work in under two minutes.
“Disinfectant cleaners can kill germs in only a minute or two but they dissipate quickly and leave surfaces vulnerable to reinfection. We do have long-lasting antibacterial surfaces based on metals like copper and zinc, but they take hours to kill bacteria. This coating offers the best of both worlds,” said Tuteja.
The coating’s durability comes from polyurethane, a tough, varnish-like sealer that’s commonly used on surfaces like floors and furniture. The coating proved deadly to SARS-CoV-2 virus, E. coli, MRSA and a variety of other pathogens.
It killed 99.9 percent of microbes even after months of repeated cleaning, abrasion and other punishment on real-world surfaces like keyboards, cell phone screens and chicken-slathered cutting boards.
The coating could be a game changer in traditionally germ-laden public spaces like airports and hospitals.
“The antimicrobials we tested are classified as ‘generally regarded as safe’ by the FDA, and some have even been approved as food additives,” Tuteja said.
The coating could keep killing germs for six months or longer before its oil begins to evaporate and reduce its disinfectant power. But even then, said Tuteja, it can be recharged by wiping it with fresh oil; the new oil is reabsorbed by the surface, starting the cycle again.
Tuteja estimates that the technology could be commercially available within a year, as it has been licensed to Hygratek, a spinoff company that Tuteja founded with assistance from Innovation Partnerships at the university.
The University of Michigan has applied for a patent based on this technology.
The research team included associate professor of materials science and engineering and biomedical engineering, Geeta Mehta and materials science and engineering PhD students Abhishek Dhyani and Taylor Repetto. (With IANS inputs)