Skip to main content

An origami paper-based bacteria-powered battery

Origami, the Japanese art of paper folding, can be used to create beautiful birds, frogs and other small sculptures. Now a Binghamton University engineer says the technique can be applied to building batteries, too.

Seokheun “Sean” Choi developed an inexpensive, bacteria-powered battery made
from paper, he writes in the July edition of the journal Nano Energy.
The battery generates power from microbial respiration, delivering enough energy to run a paper-based biosensor with nothing more than a drop of bacteria-containing liquid. “Dirty water has a lot of organic matter,” Choi says. “Any type of organic material can be the source of bacteria for the bacterial metabolism.”

The method should be especially useful to anyone working in remote areas with limited resources. Indeed, because paper is inexpensive and readily available, many experts working on disease control and prevention have seized upon it as a key material in creating diagnostic tools for the developing world.
“Paper is cheap and it’s biodegradable,” Choi says. “And we don’t need external pumps or syringes because paper can suck up a solution using capillary force.”
While paper-based biosensors have shown promise in this area, the existing technology must be paired with hand-held devices for analysis. Choi says he envisions a self-powered system in which a paper-based battery would create enough energy — we’re talking microwatts — to run the biosensor. Creating such a system is the goal of a new three-year grant of nearly $300,000 he received from the National Science Foundation.
Choi’s battery, which folds into a square the size of a matchbook, uses an inexpensive air-breathing cathode created with nickel sprayed onto one side of ordinary office paper. The anode is screen printed with carbon paints, creating a hydrophilic zone with wax boundaries.
Total cost of this potentially game-changing device? Five cents.
Choi, who joined Binghamton’s faculty less than three years ago as an assistant professor of electrical and computer engineering, earned a doctorate from Arizona State University after doing undergraduate work and a master’s degree in South Korea. Choi, who holds two U.S. patents, initially collaborated on the paper battery with Hankeun Lee, a former Binghamton undergraduate and co-author of the new journal article.
Choi recalls an actual “lightbulb moment” while working on an earlier iteration of the paper-based batteries, before he tried the origami approach. “I connected four of the devices in series, and I lit up this small LED,” he says. “At that moment, I knew I had done it!”

Comments

Popular posts from this blog

New record energy efficiency for artificial photosynthesis

As the world moves towards developing new avenues of renewable energy, the efficiencies of producing fuels such as hydrogen must increase to the point that they rival or exceed those of conventional energy sources to make them a viable alternative. Now researchers at Monash University in Melbourne claim to have created a solar-powered device that produces hydrogen at a world-record 22 percent efficiency, which is a significant step towards making cheap, efficient hydrogen production a reality. Efficiency records for solar-powered hydrogen production have continued to rise over the years, and much more rapidly as the technology and techniques improve. Even as late as December last year  Gizmag reported  a solar-driven hydrogen record efficiency at the time of just 12.3 percent, so this new record shows a very healthy 10 percent improvement on that and beats out the previous record of 18 percent. Splitting water using electricity to produce hydrogen and oxygen has been a...

The Japanese skateboard

A Japanese engineer just invented a nifty new way to travel: A transporter called a “WalkCar” that’s small, light and apparently easy to use. The product is battery powered and is about the size of a laptop. And although it looks like it can hold much weight and is made from aluminum, it can apparently have as much as 265 lbs on board. VentureBeat  reported  that it can go up to 6.2 miles per hour for up to 7.4 miles. It needs three hours to charge.

Wind Turbines

The Bahrain World Trade Center is the first skyscraper to have wind turbines integrated into the structure of the building.Three large wind turbines are suspended between two office towers. The towers are aerodynamically tapered to funnel wind and draw air into the turbines. This airfoil tapering allows the wind to enter the turbines at a perpendicular angle and increases air speed as much as 30 percent in each of the 95 ft wide turbine rotors. The turbines supply about 15 percent of the electricity used by the skyscraper - approximately the same amount of electricity used by 300 homes. Source: www.norwin.dk