Getting Closer To Using Graphene For Electronics

tgrigsby writes "Students at Georgia Tech have developed a new 'templated growth' technique that allows fabrication of nanoribbons with smooth edges and high conductivity. Predicting the ability to produce features no more than 10 nanometers wide and with extremely low resistance, Yike Hu and John Hankinson may be developing the next generation of processor technology."

yup

it buts right up against Interstate 75/85 (ok, not quite redundant)

I went there but now live in the burbs near the Trader Joe's at the intersection of Roswell Road & Johnson Ferry (as opposed to the Trader Joe's at the intersection of Johnson Ferry & the OTHER Roswell Road). the two Roswell Roads actually intersect but I'm afraid to drive through that intersection as I'm convinced there's a singularity in the middle of it...

don't underestimate our ability to be redundant down here!

Not according to IBM

[The+Grim+Reefer2]

"IBM has revealed that graphene can't fully replace silicon inside CPUs, as a graphene transistor can't actually be completely switched off."

Re:Not according to IBM

[silverpig]

From the link: "there is an important distinction between the graphene transistors that we demonstrated and the transistors used in a CPU. Unlike silicon, graphene does not have an energy gap, and therefore, graphene cannot be "switched off," resulting in a small on/off ratio." One of the issues with graphene is it doesn't have a band gap. You can create one if you can successfully dope it (unlikely), or if you can put it into a very narrow by relatively long shape (say 2 nm wide by 50 nm long). Once you have a band gap, you can turn it off completely.

Re:Am I missing something?

[mycroft822]

According to TFA: "We will not be following the model of using standard field-effect transistors (FETs), but will pursue devices that use ballistic conductors and quantum interference. We are headed straight into using the electron wave effects in graphene."