New technique reveals lithium in action
By By David L. Chandler, MIT News Office | 08 Oct 2012
Exactly what goes inside advanced lithium-air batteries as they charge and discharge has always been impossible to observe directly. Now, a new technique developed by MIT researchers promises to change that, allowing study of this electrochemical activity as it happens. By David L Chandler
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| A solid-state lithium-air battery (highlighted in orange) is positioned inside a test chamber at the Advanced Light Source (ALS) at Lawrence Berkeley National Laboratory, in preparation for its testing using X-ray photoelectron microscopy. Image courtesy of Eva Mutoro and Ethan Crumlin, ALS |
The research has just been published in the journal Scientific Reports.
The reactions that take place inside a conventional lithium-air battery are complex, says Yang Shao-Horn, the Gail E. Kendall associate professor of mechanical engineering and materials science and engineering, who was the senior author of the paper. "We focused on finding out what really happens during charging and discharging," she says.
Doing that required the use of a special kind of high-intensity X-ray illumination at one of only two facilities in the world capable of producing such an experiment: the Advanced Light Source (ALS) at the Lawrence Berkeley National Laboratory (LBNL) in California.
That facility made it possible to study the electrochemical reactions taking place at the surface of electrodes, and to show the reactions between lithium and oxygen as the voltage applied to the cell was changed.
The tests used a novel solid-state version of a lithium-air battery made possible via collaboration with Nancy Dudney and colleagues at Oak Ridge National Laboratory (ORNL), Shao-Horn says.
