Biobattery Image
Professor Seokheun “Sean” Choi and PhD student Maryam Rezaie at Binghamton University have created a small biobattery that works on bacteria and potentially has a 100-year shelf life. (Image: Binghamton University)

Last fall, Binghamton University professor Seokheun “Sean” Choi and his Bioelectronics and Microsystems Laboratory published their research into an ingestible biobattery activated by the Ph factor of the human intestine. Now, he and PhD student Maryam Rezaie have taken what they learned and incorporated it into new ideas for use outside the body.

A new study in the journal Small, which covers nanotechnology, shared the results from using spore-forming bacteria similar to the previous ingestible version, to create a device that potentially would still work after 100 years.

The overall objective is to develop a microbial fuel cell that can be stored for a relatively long period without degradation of biocatalytic activity and can be rapidly activated by absorbing moisture from the air,” said Choi.

“We wanted to make these biobatteries for portable, storable, and on-demand power generation capabilities,” Choi said. “The problem is, how can we provide long-term storage of bacteria until they are used? And if that is possible, then how would you provide on-demand battery activation for rapid and easy power generation? And how would you improve the power?”

The dime-sized fuel cell was sealed with a piece of Kapton tape, a material that can withstand temperatures from -500 to 750 degrees Fahrenheit. When the tape was removed and moisture allowed in, the bacteria mixed with a chemical germinant that encouraged the microbes to produce spores. The energy from that reaction produced enough to power an LED, a digital thermometer, or a small clock.

Heat activation of the bacterial spores cut the time to full power from 1 hour to 20 minutes, and increasing the humidity led to higher electrical output. After a week of storage at room temperature, there was only a 2% drop in power generation.

While these are all good results, Choi knows that a fuel cell like this needs to power up more quickly and produce more voltage to become a viable alternative to traditional batteries.

“I think this is a good start,” he said. “Hopefully, we can make a commercial product using these ideas.”