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First fully rechargeable carbon dioxide battery with carbon neutrality

Date:
September 26, 2019
Source:
University of Illinois at Chicago
Summary:
Researchers are the first to show that lithium-carbon dioxide batteries can be designed to operate in a fully rechargeable manner, and they have successfully tested a lithium-carbon dioxide battery prototype running up to 500 consecutive cycles of charge/recharge processes.
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Lithium-carbon dioxide batteries are attractive energy storage systems because they have a specific energy density that is more than seven times greater than commonly used lithium-ion batteries. However, until now, scientists have not been able to develop a fully rechargeable prototype, despite their potential to store more energy.

Researchers at the University of Illinois at Chicago are the first to show that lithium-carbon dioxide batteries can be designed to operate in a fully rechargeable manner, and they have successfully tested a lithium-carbon dioxide battery prototype running up to 500 consecutive cycles of charge/recharge processes.

Their findings are published in the journal Advanced Materials.

"Lithium-carbon dioxide batteries have been attractive for a long time, but in practice, we have been unable to get one that is truly efficient until now," said Amin Salehi-Khojin, associate professor of mechanical and industrial engineering at UIC's College of Engineering.

Traditionally, when a lithium-carbon dioxide battery discharges, it produces lithium carbonate and carbon. The lithium carbonate recycles during the charge phase, but the carbon just accumulates on the catalyst, ultimately leading to the battery's failure.

"The accumulation of carbon not only blocks the active sites of the catalyst and prevents carbon dioxide diffusion, but also triggers electrolyte decomposition in a charged state," said Alireza Ahmadiparidari, first author of the paper and a UIC College of Engineering graduate student.

Salehi-Khojin and his colleagues used new materials in their experimental carbon dioxide battery to encourage the thorough recycling of both lithium carbonate and carbon. They used molybdenum disulfide as a cathode catalyst combined with a hybrid electrolyte to help incorporate carbon in the cycling process.

Specifically, their combination of materials produces a single multi-component composite of products rather than separate products, making recycling more efficient.

"Our unique combination of materials helps make the first carbon-neutral lithium carbon dioxide battery with much more efficiency and long-lasting cycle life, which will enable it to be used in advanced energy storage systems," Salehi-Khojin said.

Theoretical calculations performed by Dr. Larry Curtiss' group at Argonne National Lab were used to deduce a mechanism for the reversible operation of the battery.


Story Source:

Materials provided by University of Illinois at Chicago. Note: Content may be edited for style and length.


Journal Reference:

  1. Alireza Ahmadiparidari, Robert E. Warburton, Leily Majidi, Mohammad Asadi, Amir Chamaani, Jacob R. Jokisaari, Sina Rastegar, Zahra Hemmat, Baharak Sayahpour, Rajeev S. Assary, Badri Narayanan, Pedram Abbasi, Paul C. Redfern, Anh Ngo, Márton Vörös, Jeffrey Greeley, Robert Klie, Larry A. Curtiss, Amin Salehi‐Khojin. A Long‐Cycle‐Life Lithium–CO 2 Battery with Carbon Neutrality. Advanced Materials, 2019; 1902518 DOI: 10.1002/adma.201902518

Cite This Page:

University of Illinois at Chicago. "First fully rechargeable carbon dioxide battery with carbon neutrality." ScienceDaily. ScienceDaily, 26 September 2019. <www.sciencedaily.com/releases/2019/09/190926101331.htm>.
University of Illinois at Chicago. (2019, September 26). First fully rechargeable carbon dioxide battery with carbon neutrality. ScienceDaily. Retrieved March 27, 2024 from www.sciencedaily.com/releases/2019/09/190926101331.htm
University of Illinois at Chicago. "First fully rechargeable carbon dioxide battery with carbon neutrality." ScienceDaily. www.sciencedaily.com/releases/2019/09/190926101331.htm (accessed March 27, 2024).

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