This
is a great breakthrough. It is a potentially cheap way to produce
carbon nano tubes that can be easily scaled up. Thus the commercial
promise of this material is today far closer.
Just
producing cordage and sheets with binders will throw open ample
design ideas and application. And let us not forget high performance
bearings that work with a grapheme lubricant. My point is that
imagination runs wild the instant this product becomes a simple
commodity deliverable.
So
bravo for a job well done. It has been a long wait.
By Ryan
Whitwam Sep.
26, 2013
Carbon
nanotubes have an incredible number of potential uses, but one of the
main barriers to actually implementing this revolutionary
nanomaterial is the cost. A team of researchers out of the University
of Adelaide might have found a way to make nanotubes that is not only
inexpensive, but does away with a troublesome bit of human refuse.
According to the new paper, it may be possible to manufacture carbon
nanotubes out
of plastic bags. The phrase “killing two birds with one stone”
comes to mind.
A
carbon nanotube is so named because it is simply a microscopic hollow
tube made from a single-atom layer of carbon. Researchers first
created carbon nanotubes using ethanol as the starting material, and
this is still one of the most common approaches. However, this
process is slow and still relatively expensive. To make carbon
nanotubes you really just need a source of carbon, and there’s
plenty of it out there — especially in disposable plastics.
Researchers
first succeeded in turning plastic bags into carbon nanotubes back in
2009, but the process was complicated and produced significant toxic
byproducts. It involved adding catalytic compounds to a furnace that
vaporized the plastic bags, but even the production of valuable
carbon nanotubes couldn’t make that system viable. The new process
is essentially a different take on the catalytic oven. Old plastic
bags are vaporized like before, but a sheet of specially designed
template material is added instead of messy chemicals.
The
template is a remarkable nanomaterial in its own right. It’s
covered by tiny nano-pores that collect the free carbon atoms as the
bags disintegrate. The pores guide the carbon atoms to bind
together as nanotubes,
which can then be harvested from the membrane.
This
process has the potential to lower the cost of nanotube production
dramatically. After all, there is no shortage of plastic bags
floating around in the world. The University of Adelaide team is
working to refine the technology, but it seems like a win-win right
now.
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