Trees go high-tech: Process turns cellulose into energy
storage devices
CORVALLIS, Ore. – Based on a fundamental chemical discovery by scientists at Oregon State University, it appears that trees may soon play a major role in making high-tech energy storage devices.
The new approach just discovered at Oregon State can produce nitrogen-doped, nanoporous carbon membranes – the electrodes of a supercapacitor – at low cost, quickly, in an environmentally benign process. The only byproduct is methane, which could be used immediately as a fuel or for other purposes.
"The ease, speed and potential of this process is really exciting," said Xiulei (David) Ji, an assistant professor of chemistry in the OSU College of Science, and lead author on a study announcing the discovery in Nano Letters, a journal of the American Chemical Society. The research was funded by OSU.
"For the first time we've proven that you can react cellulose with ammonia and create these N-doped nanoporous carbon membranes," Ji said. "It's surprising that such a basic reaction was not reported before. Not only are there industrial applications, but this opens a whole new scientific area, studying reducing gas agents for carbon activation.
"We're
going to take cheap wood and turn it into a valuable high-tech
product," he said.
hese
carbon membranes at the nano-scale are extraordinarily thin – a
single gram of them can have a surface area of nearly 2,000 square
meters. That's part of what makes them useful in supercapacitors. And
the new process used to do this is a single-step reaction that's fast
and inexpensive. It starts with something about as simple as a
cellulose filter paper – conceptually similar to the disposable
paper filter in a coffee maker.
The
exposure to high heat and ammonia converts the cellulose to a
nanoporous carbon material needed for supercapacitors, and should
enable them to be produced, in mass, more cheaply than before.A supercapacitor is a type of energy storage device, but it can be recharged much faster than a battery and has a great deal more power. They are mostly used in any type of device where rapid power storage and short, but powerful energy release is needed.
Supercapacitors can be used in computers and consumer electronics, such as the flash in a digital camera. They have applications in heavy industry, and are able to power anything from a crane to a forklift. A supercapacitor can capture energy that might otherwise be wasted, such as in braking operations. And their energy storage abilities may help "smooth out" the power flow from alternative energy systems, such as wind energy.
They can power a defibrillator, open the emergency slides on an aircraft and greatly improve the efficiency of hybrid electric automobiles.
Besides supercapacitors, nanoporous carbon materials also have applications in adsorbing gas pollutants, environmental filters, water treatment and other uses.
"There are many applications of supercapacitors around the world, but right now the field is constrained by cost," Ji said. "If we use this very fast, simple process to make these devices much less expensive, there could be huge benefits."
.http://www.eurekalert.org/pub_releases/2014-04/osu-tgh040714.php
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