Analysis

Could graphene-treated nanowires replace touchscreens?

26th September 2014
Nat Bowers
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According to research from the University of Surrey and Trinity College Dublin, graphene-treated nanowires could soon replace current touchscreen technology. The research, published in the 'Advanced Functional Materials' journal, suggests that using this technology would significantly reduce production costs, enabling more affordable, flexible displays.

Most of today’s touchscreen tablets and smartphones are made using indium tin oxide (ITO), which is expensive and inflexible. However, graphene-treated nanowires can be used to produce flexible touchscreens at a fraction of the current cost.

Researchers from the University of Surrey and AMBER, the materials science centre based at Trinity College Dublin, used a simple, scalable and inexpensive method to produce hybrid electrodes, the building blocks of touchscreen technology, from silver nanowires and graphene.

Dr Izabela Jurewicz, Lead Author, University of Surrey, commented: “Our work has cut the amount of expensive nanowires required to build such touchscreens by more than fifty times as well as simplifying the production process. We achieved this using graphene, a material that can conduct electricity and interpret touch commands whilst still being transparent.”

“The growing market in devices such as wearable technology and bendable smart displays poses a challenge to manufacturers," said Dr Alan Dalton, University of Surrey. "They want to offer consumers flexible, touchscreen technology but at an affordable and realistic price. At the moment, this market is severely limited in the materials to hand, which are both very expensive to make and designed for rigid, flat devices.”

“This is a real alternative to ITO displays and could replace existing touchscreen technologies in electronic devices. Even though this material is cheaper and easier to produce, it does not compromise on performance. We are currently working with industrial partners to implement this research into future devices and it is clear that the benefits will soon be felt by manufacturers and consumers alike," added Professor Jonathan Coleman, Co-Author, AMBER.

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