SoylentNews is people
SoylentNews
Scientists have used the tip of a scanning tunnelling microscope to manipulate electrons in graphene, potentially making the material usable for more applications:
Graphene – a one-atom-thick layer of the stuff in pencils – is a better conductor than copper and is very promising for electronic devices, but with one catch: Electrons that move through it can't be stopped.
Until now, that is. Scientists at Rutgers University-New Brunswick have learned how to tame the unruly electrons in graphene, paving the way for the ultra-fast transport of electrons with low loss of energy in novel systems. Their study was published online in Nature Nanotechnology [DOI: 10.1038/nnano.2017.181] [DX].
[...] [Eva Y. Andrei's] team managed to tame these wild electrons by sending voltage through a high-tech microscope with an extremely sharp tip, also the size of one atom. They created what resembles an optical system by sending voltage through a scanning tunneling microscope, which offers 3-D views of surfaces at the atomic scale. The microscope's sharp tip creates a force field that traps electrons in graphene or modifies their trajectories, similar to the effect a lens has on light rays. Electrons can easily be trapped and released, providing an efficient on-off switching mechanism, according to Andrei.
Related: Electrons Controlled in Graphene on a Sub-Femtosecond Scale Using Lasers
(Score: 0) by Anonymous Coward on Wednesday October 25 2017, @10:02PM
I at first misread the title as "Smart Tunneling Microscope", perhaps that is what they need to take advantage of graphene.