Featured Research
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Graphene looks promising as a flexible, low-cost touchscreen solution
Date:
September 26, 2014
Source:
University of Surrey
Summary:
New research suggests
that graphene-treated nanowires could soon replace current touchscreen
technology, significantly reducing production costs and allowing for
more affordable, flexible displays.
New research published today in the journal Advanced Functional Materials suggests
that graphene-treated nanowires could soon replace current touchscreen
technology, significantly reducing production costs and allowing for
more affordable, flexible displays.
The majority of today's touchscreen devices, such as tablets and
smartphones are made using indium tin oxide (ITO) which is both
expensive and inflexible. Researchers from the University of Surrey and
AMBER, the materials science centre based at Trinity College Dublin have
now demonstrated how graphene-treated nanowires can be used to produce
flexible touchscreens at a fraction of the current cost.
Using a simple, scalable and inexpensive method the researchers produced hybrid electrodes, the building blocks of touchscreen technology, from silver nanowires and graphene.
Dr Alan Dalton from the University of Surrey said, "The growing market in devices such as wearable technology and bendable smart displays poses a challenge to manufacturers. 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."
Lead author, Dr Izabela Jurewicz from the 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."
Co-author, Professor Jonathan Coleman, AMBER, added, "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."
The research benefitted from funding and collaboration with M-SOLV, a touchscreen manufacturer.
Using a simple, scalable and inexpensive method the researchers produced hybrid electrodes, the building blocks of touchscreen technology, from silver nanowires and graphene.
Dr Alan Dalton from the University of Surrey said, "The growing market in devices such as wearable technology and bendable smart displays poses a challenge to manufacturers. 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."
Lead author, Dr Izabela Jurewicz from the 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."
Co-author, Professor Jonathan Coleman, AMBER, added, "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."
The research benefitted from funding and collaboration with M-SOLV, a touchscreen manufacturer.
Story Source:
The above story is based on materials provided by University of Surrey. Note: Materials may be edited for content and length.
The above story is based on materials provided by University of Surrey. Note: Materials may be edited for content and length.
Journal Reference:
- Izabela Jurewicz, Azin Fahimi, Phillip E. Lyons, Ronan J. Smith, Maria Cann, Matthew L. Large, Mingwen Tian, Jonathan N. Coleman, Alan B. Dalton. Insulator-Conductor Type Transitions in Graphene-Modified Silver Nanowire Networks: A Route to Inexpensive Transparent Conductors. Advanced Functional Materials, 2014; DOI: 10.1002/adfm.201402547
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