And that means the window is now open for the long-touted spintronics, promising faster CPUs and memory for computers.
The aptly named Saroj Dash, head of the research group at Chalmers, said: “These results will attract a lot of attention in the research community and put graphene on the map for applications in spintronic components.”
Spintronics, already used in state of the art hard drives but Dash believes there’s more exciting times ahead. “The thin carbon film is not only an excellent electrical conductor, but also theoretically has the rare ability to maintain the electronics with the spin intact,” said Dash.
That means that in spin components of the future, electrons will be able to travel several tens of micrometers with spins staying aligned, something you can’t do with aluminium or copper, Dash said.
The researchers have managed to create graphene through chemical vapour deposition. Dash said: “The CVD graphene can also be easily removed from the copper foil on which it grows and is lifted onto a silicon wafer. There are good prospects for the production of large area graphene on an industrial scale.”
So when, and if, will we see spintronic computers? On that subject Dash is a little more pessimistic. He said: “Whether spintronics can eventually fully replace semiconductor technology is an open question.”