A battery made with urea, commonly found in fertilizers and mammal urine, could provide a low-cost way of storing energy produced through solar power or other forms of renewable energy for consumption during off hours.
The battery is nonflammable and contains electrodes made from abundant aluminum and graphite. Its electrolyte’s main ingredient, urea, is already industrially produced by the ton for plant fertilizers.
“Who would have thought you could take graphite, aluminum, urea, and actually make a battery that can cycle for a pretty long time?”
“So essentially, what you have is a battery made with some of the cheapest and most abundant materials you can find on Earth. And it actually has good performance,” says Hongjie Dai, chemistry professor at Stanford University. “Who would have thought you could take graphite, aluminum, urea, and actually make a battery that can cycle for a pretty long time?”
In 2015, Dai’s lab was the first to make a rechargeable aluminum battery. This system charged in less than a minute and lasted thousands of charge-discharge cycles. The lab collaborated with Taiwan’s Industrial Technology Research Institute (ITRI) to power a motorbike with this older version, that had one major drawback: it involved an expensive electrolyte.
The newest version includes a urea-based electrolyte and is about 100 times cheaper than the 2015 model, with higher efficiency and a charging time of 45 minutes. It’s the first time urea has been used in a battery. The cost difference between the two batteries, Dai says, is “like night and day.” The findings appear in the Proceedings of the National Academy of Sciences.
Unlike energy derived from fossil fuels, solar energy can essentially be harnessed only when the sun is shining. A solar panel pumps energy into the electrical grid during daylight hours. If that energy isn’t consumed right away, it is lost as heat. As the demand for renewable technologies grows, so does the need for cheap, efficient batteries to store the energy for release at night. Today’s batteries, like lithium-ion or lead acid batteries, are costly and have limited lifespans.
The new battery could provide a solution to the grid’s storage problem, says doctoral candidate Michael Angell. “It’s cheap. It’s efficient. Grid storage is the main goal.”
Grid storage is also the most realistic goal, because of the battery’s low cost, high efficiency, and long cycle life, Angell says. One kind of efficiency, called Coulombic efficiency, is a measurement of how much charge exits the battery per unit of charge that it takes in during charging. The Coulombic efficiency for this battery is high—99.7 percent.
Though also efficient, lithium-ion batteries commonly found in small electronics and other devices can be flammable. By contrast, the urea battery is inflammable and therefore less risky.
“I would feel safe if my backup battery in my house is made of urea with little chance of causing fire,” Dai says.
To meet the demands of grid storage, a commercial battery will need to last at least ten years. By investigating the chemical processes inside the battery, Angell hopes to extend its lifetime. The outlook is promising. In the lab, these urea-based aluminum ion batteries can go through about 1,500 charge cycles with a 45-minute charging time.
“With this battery, the dream is for solar energy to be stored in every building and every home,” Dai says. “Maybe it will change everyday life. We don’t know.”
The battery’s patents have been licensed to AB Systems, founded by Dai. A commercial version is currently in development.
The US Department of Energy, the Global Networking Talent 3.0 Plan, the Ministry of Education of Taiwan, and the Taishan Scholar Project funded the work.
Source: Jackie Flynn for Stanford University
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