a decade silicon has been the predominant material in micro electronics
but conventional for the can technology fading scaling challenges and will soon reach limit that
require alternative solutions cop and could be a key element such future technologies
not only because it is one of the most abundant element in the craft but
also because it possesses unique chemical difficult and electronic properties that make it very attractive
the technological applications
most recently cup another chewed and grapheme have been proposed for non volatile memory applications
ipm designed to our research in the but the and the published results in the
january two thousand and that issue of the new journal of phonetics
the results demonstrate that the more carbon also shows promise as another potential candidate for
future non volatile memory
doctor i sebastian and ipm scientist on the project explains
you know demonstrate that all
and i think for example
which i
so no change
you know each task
well known that the primary i will also for not
moreover it should be
what has changed
that is primarily due to do used rearrangement
a within this
the work started off at i b m ws that's your week as a you
know from the previous european project in which the i b m lab participated in
along with clarion a company based in the u k
it also drew on the characterization scale of colleagues from i b m research in
a button and from the three lights all at the pool share institute don't sebastian
comment on one of the price findings reported that are usually small
and the traditional media right
well in terms of electrical password and the mapping which the c g i d
n the lead known protocol memory candidate
such as phase change memory and resisted memory load significantly speed up computers
support the planet increasing storage needs due to the explosive growth of data and then
they will not for applications currently on not feasible
this is and marie chromatic report