With silicon fast running out of steam and no clear path beyond 14nm, graphene might just be the light at the end of the tunnel. For that to occur, though, we first need to turn graphene into a ...

Increasingly, quantum computers are predicted to be the next great leap in computational power -- but in reality they are more likely to be the next next great leap. Right now we have to tailor ...

The wide-ranging capabilities of graphene could lead to circuit applications that are far more compact and versatile than what is now feasible with silicon-based technologies, according to researchers ...

Atomic-scale imperfections in graphene transistors generate unique wireless fingerprints that cannot be copied or predicted, offering a new approach to hardware security for IoT devices. (Nanowerk ...

Researchers at UNSW have discovered a new way to make graphene, a remarkable "wonder material," using just discarded peanut ...

Representation of artificial intelligence at The Science Museum, London. Image © Tim Sandle Representation of artificial intelligence at The Science Museum, London ...

Why carbon-derived graphene is attracting research attention. How graphene is transformed into a potentially useful semiconductor device. Some of the challenges overcome in making this graphene ...

With the promise to open the door to using graphene in transistors, diodes, and nanoelectronics, and their applications, a team of researchers from Rensselaer Polytechnic Institute announced a new ...

How using graphene could allow for smaller and faster electronic devices and extend Moore's Law yet further. When Intel co-founder Gordon Moore made the observation that came to be known as Moore's ...

IBM on Thursday demonstrated its fastest graphene transistor, which can execute 155 billion cycles per second, which is about 50% faster than previous experimental transistors shown by the company’s ...