But the graphene retains its ability to
move electrons quickly and gives it the quick charge - and - release characteristics of a supercapacitor.
Not exact matches
At extreme temperatures, atoms are stripped of their
electrons and nuclei
move so
quickly that they overcome their «mutual repulsion», joining together to form a heavier nucleus.
But when the magnetic orientations of the wires point in opposite directions,
electrons moving through the cluster from one wire to the other must
quickly flip their spin.
However, they, especially n - type semiconducting polymers, currently lag behind inorganic counterparts in the charge carrier mobility — which characterizes how
quickly charge carriers (
electron) can
move inside a semiconductor — and the chemical stability in ambient air.
Because
electrons in graphene
move very
quickly and scatter little (see «Ballistic
electrons»), computer chips made from graphene could in theory be both faster and experience far less noise from
electron jostling than existing silicon chips.