Flexible nanopillar film ruptures viruses on contact
TL;DR Summary
Researchers at RMIT developed a lightweight, flexible acrylic film with thousands of nanoscale pillars that mechanically rupture viral envelopes on contact, inspired by insect wing textures. Lab tests with human parainfluenza virus type 3 showed up to 94% of virus particles were destroyed within an hour. Pillar spacing (around 60 nanometers) mattered more than pillar height, and the scalable molding process could enable antiviral coatings for phones, hospital equipment, and public transit—providing a chemical-free alternative to disinfectants, though real-world durability remains to be tested.
Topics:science#antiviral-surfaces#infection-control#materials-science#nanotechnology#science-tech#viruses
- New plastic film covered in thousands of tiny pillars can tear apart viruses on contact The Conversation
- Plastic texturing kills viruses when they land Phys.org
- RMIT study explores manufacturing-friendly plastic surface that destroys viruses on contact Australian Manufacturing
- Plastic surfaces that kill viruses on contact Bioengineer.org
- Plastic Film Kills Viruses by Tearing Them Apart ScienceBlog.com
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