Using an exotic form of carbon called graphene, researchers print antennas on paper and other materials with a process that could bring network links to many cheap devices. Stephen Shankland ...

Based on a honeycomb network of carbon atoms, graphene could generate a type of electronic surface wave that would allow antennas just one micron long and 10 to 100 nanometers wide to do the work ...

Now researchers at Georgia Tech have invented a plasmonic graphene nano-antenna that can be efficiently used at millimeter radio wavelengths, taking one more step toward smart dust. Graphene is a ...

However, products made with graphene are getting closer to hitting the market, and a low-cost 3D-printed antenna reported last week in the journal Applied Physics Letters could be among the first ...

All properties well suited for next generation NFC antennas. Graphene is currently one of the most extensively studied materials in the world, both on a scientific and industrial level.

A terabit per second could be done at a range of about one meter using a graphene antenna, which would make it possible to obtain 10 high-definition movies by waving your phone past another device for ...

Researchers at Georgia Tech have drawn up blueprints for a wireless antenna made from atom-thin sheets of carbon, or graphene, that could allow terabit-per-second transfer speeds at short ranges.

Researchers at Georgia Tech are working on antennas that could transfer your files so fast that you might miss it if you blink. Their solution uses graphene, a miracle material that is starting to ...

Wireless uploads of big files take for-ev-er. But researchers at Georgia Tech University have plans for an antenna made of crazy thin graphene that would let you transfer a whole terabit of data ...

One key way to reduce the cost of passive ultrahigh-frequency RFID transponders is to reduce the cost of the antenna. Companies have tried printing antennas, but the cost is often just as high as the ...

Based on a honeycomb network of carbon atoms, graphene could generate a type of electronic surface wave that would allow antennas just one micron long and 10 to 100 nanometers wide to do the work ...