Li-ion battery breakthrough improves safety profile

New thermal management network aims to make Li-ion batteries saferEngine bay of an Opel Corsa-e from the front. (Reference image by Harald Linden, Wikimedia Commons).

U.S. and China-based researchers have developed a 3D, interconnected, thermally-conductive boron nitride network that greatly improves thermal conductivity in lithium-ion batteries.

In a paper published in the journal Green Energy & Environment, scientists explain that although electric cars travel longer distances with shorter battery charging times, the lifespan of those batteries has also decreased and low heat-dissipation efficiency has led to safety issues.

By systematically studying the effects of the three-dimensional network of boron nitride on the thermal management performance of power cells, the group found that the hexagonal boron nitride thermal network (h-BN) constructed by the ice template method with varying temperature gradients demonstrated structural variation in different directions.

Ice templating, also known as freeze casting, is a popular shaping route for macroporous materials.

“Generally, structure determines performance, and different structures in different directions means a greater spread of performance,” study co-author Bing Zhang of China’s Zhejiang University, said in a media statement. “And by creating a composite with paraffin (h-BN/PW), we could achieve excellent anti-leakage performance and ultra-fast heat dissipation performance in lithium-ion batteries.”

According to Zhang, the results show that the maximum surface temperature of the battery with continuous charge and discharge at 2℃-5℃ was reduced by 6.9 ℃.

“We think that this demonstrates the great potential of this process for application in battery thermal management systems,” the scientist said.

Print

Be the first to comment on "Li-ion battery breakthrough improves safety profile"

Leave a comment

Your email address will not be published.


*


By continuing to browse you agree to our use of cookies. To learn more, click more information

Dear user, please be aware that we use cookies to help users navigate our website content and to help us understand how we can improve the user experience. If you have ideas for how we can improve our services, we’d love to hear from you. Click here to email us. By continuing to browse you agree to our use of cookies. Please see our Privacy & Cookie Usage Policy to learn more.

Close