At the moment this effect is food for thought and it is still unclear
were we go from here. A reversible
chemical process could conceivably deliver up a great battery even if it looks
like a long shot now.
Right now it is a novel solution looking for a problem that it can
solve.
Something else to stuff into the old quiver.
New power source discovered
February 20, 2012
Researchers at the Massachusetts Institute of Technology (MIT) and RMIT
University have made a breakthrough in energy storage and power generation.
The power generated relative to the energy source size is three to four
times greater than what is currently possible with the best lithium-ion
batteries.
Professor Joel Schindall of MIT explains nanotube power generation
While on sabbatical from RMIT in 2009 and 2010, Associate Professor Dr
Kourosh Kalantar-zadeh, from the School of Electrical and Computer Engineering,
joined MIT Associate Professor Michael Strano’s nanotechnology research group.
Before he arrived, Strano’s laboratory was working on measuring the
acceleration of a chemical reaction along a nanotube when they discovered that
the reaction generated power.
While at MIT, Dr Kalantar-zadeh joined the researchers and using their
combined expertise in chemistry and nanomaterials they further explored this
new phenomenon.
Their work titled Nanodynamite: Fuel-coated nanotubes could provide
bursts of power to the smallest systems is in the December IEEE Spectrum
Magazine, the publication of the IEEE, the world’s largest professional
technology association.
Associate Professor Kalantar-zadeh said that
this experimental system, based on one of the materials that have come from
nanotechnology – carbon nanotubes – generates power, something researchers had
not seen before.
“By coating a nanotube in nitrocellulose fuel and igniting one end, we
set off a combustion wave along it and learned that a nanotube is an excellent
conductor of heat from burning fuel. Even better, the combustion wave creates a
strong electric current,” he said.
“This discovery that a thermopower wave works best across these tubes
because of their dual conductivity turns conventional thermoelectricity on its
head.
“It’s the first viable nanoscale approach to power generation that
exploits the thermoelectric effect by overcoming the feasibility issues
associated with minimising dimensions.
“But there are multiple angles to explore when it comes to taming these
exotic waves and, ultimately, finding out if they’re the wave of the future.”
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