EPFL and UNIGE scientists have developed a microchip using graphene that could help wireless telecommunications share data at a rate that is ten times faster than currently possible. The results are published in Nature Communications. "Our graphene based microchip is an essential building block for faster wireless telecommunications in frequency bands that current mobile devices cannot access," says EPFL scientist Michele Tamagnone.
The microchip works by protecting sources of wireless data from unwanted radiation, ensuring that the data remain intact by reducing source corruption.
Researchers discovered that graphene can filter out radiation in a similar way as polarised glasses. Like polarised glasses, their graphene-based microchip makes sure that radiation that only vibrates a certain way gets through.
In this way, graphene is both transparent and opaque to radiation, depending on the orientation of vibration and signal direction. The EPFL scientists and their colleagues from Geneva used this property to create a device known as an optical isolator.
Moreover, their microchip works in a frequency band that is currently empty, called the Terahertz gap. Wireless devices work today by transmitting data in the Gigahertz range or at optical frequencies. This is imposed by technological constraints, leaving the potential of the Terahertz band currently unexploited for data transmission.
But if wireless devices could use Terahertz bandwidth, future mobile phones could potentially send or receive data tens of times faster than now, meaning better sound quality, better image quality and faster uploads.