Scientists may have found a way to make glass virtually invisible

They believe it could eliminate the problem of mobile phone screen glare.

Smartphone screen glare could become a thing of the past, if new technology developed by scientists at the US Department of Energy finds a commercial partner.

The researchers from the Center for Functional Nanomaterials (CFN) at Brookhaven National Laboratory said they have found a way to make glass virtually invisible by etching nanoscale cones on it.

Reflections occur when light abruptly hitting a surface causes a change in the refractive index, resulting in the bending of light as it passes from one medium to another, such as from air to water or from air to glass.

By coating the glass surface with nanoscale structures, the scientists said they were able to make the refractive index change more gradually.

They used an approach called self-assembly, which relied on the ability of the material to spontaneously form ordered arrangements on their own.

Glass surfaces with etched nanotextures. — A side-by-side comparison of the glare from a conventional piece of glass, right, with that from nanotextured glass, left, which shows no glare at all (Brookhaven National Laboratory)

The scientists said this geometric pattern “almost completely eliminates the surface reflections”, making the glass appear almost invisible.

Andreas Liapis, formerly based at CFN, who now works as a research fellow at Massachusetts General Hospital, said: “We have eliminated reflections from glass windows not by coating the glass with layers of different materials but by changing the geometry of the surface at the nanoscale.

“Because our final structure is composed entirely of glass, it is more durable than conventional anti-reflective coatings.”

Mobile phone anti-virus software — The researchers say their technology could eliminate the problem of smartphone glare (Lauren Hurley/PA)

“The best thing is that you don’t need a separate coating layer to reduce glare, and the nanotextured surfaces outperform any coating material available today.”

As well as smartphones and other electronic devices, the researchers believe the technology could also make solar cells more efficient.

They are looking to commercialise their technology, with CFN director Charles Black saying: “We’d love to find a partner to help advance these remarkable materials toward technology.”

The research is published in the journal Applied Physics Letters.