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Now, look inside a battery without destroying it!

London, Mon, 13 Feb 2012 ANI

London, Feb 13 (ANI): Researchers including one of Indian origin have come up with a new methodology, based on magnetic resonance imaging (MRI), to examine batteries from inside without destroying them.

 

The technique developed by researchers at Cambridge University, Stony Brook University, and New York University, also creates the possibility of improving battery performance and safety by serving as a diagnostic of its internal workings.

 

MRI has been extremely successful in the medical field for visualizing disorders and assessing the body's response to therapy. However, MRI is not typically used in the presence of a lot of metal, a primary component in many batteries.

 

This is because conducting surfaces effectively block the radio frequency fields that are used in MRI to see beneath surfaces or inside the human body.

 

The researchers, however, turned this limitation into a virtue. Because radio frequency fields do not penetrate metals, one can actually perform very sensitive measurements on the surfaces of the conductors.

 

In the case of the popular lithium-ion batteries, for example, the team was able to directly visualize the build-up of lithium metal deposits on the electrodes after charging the battery. Such deposits can also detach from the surface, eventually leading to overheating, battery failure, and - in some cases - to fire or explosion.

 

Visualizing small changes on the surface of the batteries' electrodes allows, in principle, for the testing of many different battery designs and materials under normal operating conditions.

 

"New electrode and electrolyte materials are constantly being developed, and this non-invasive MRI technology could provide insights into the microscopic processes inside batteries, which hold the key to eventually making batteries lighter, safer, and more versatile," said Alexej Jerschow, a professor in the Department of Chemistry at New York University.

 

"Both electrolyte and electrode surfaces can be visualized with this technique, thus providing a comprehensive picture of the batteries' performance-limiting processes."

 

Clare Grey, associate director of the Northeastern Center for Chemical Energy Storage and a professor at Cambridge and Stony Brook universities insisted that MRI is exciting because "we are able to identify where the chemical species inside the battery are located without having to take the battery apart, a procedure which to some degree defeats the purpose."

 

"The work clearly shows how we can use the method to identify where lithium deposits form on metal electrodes.

 

"The resolution is not yet where we want it to be and we would like to extend the method to much larger batteries, but the information that we were able to get from these measurements is unprecedented," Grey added.

 

"We still have some way to go to make the images better resolved, and make imaging time shorter," S. Chandrashekar, a postdoctoral fellow at both Stony Brook and New York Universities noted.

 

The study has been published in the journal Nature Materials. (ANI)

 


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