Faculty from Notre Dame’s colleges of engineering and science, including Rev. John A. Zahm Professor Prashant Kamat in the Department of Chemistry and Biochemistry, have been awarded more than $1.3 million from the U.S. Army Tank Automotive Research, Development, and Engineering Center (TARDEC) in collaboration with research being conducted by Mississippi State University on the development of novel materials for improved battery technology.
Li-air batteries offer one of the highest theoretical energy densities of any electrochemical power sources and more than twice as much as any other existing battery. The goal of this project is to improve battery performance, reliability and safety through the creation of new materials to be used in the batteries that power military vehicles, such as manned and unmanned ground vehicles, directed energy weapons, and hybrid electric vehicles. These technologies are critical for the development of military hybrid vehicles where higher current capability, greater storage capacity, improved durability and reliability are of utmost importance to the safety of the vehicle and its occupants.
Participating University faculty along with Professor Kamat, include Keating-Crawford Professor Joan F. Brennecke, Professor Edward J. Maginn, and Professor Paul McGinn (chemical and biomolecular engineering); Professor Alan C. Seabaugh and Research Assistant Professor Susan Fullerton (electrical engineering). They will be developing improved electrolytes and electrode structures for use in lithium ion and lithium-air (Li-air) batteries.
TARDEC’s developments in the areas of vehicles, energy storage, batteries and other power show its ability to form partnerships with its industry and academic counterparts, like Notre Dame. These partnerships play an important role in reducing the Army’s logistics burden, keeping soldiers safer and increasing national energy security.
The University team is working through the Notre Dame Energy Center. Established in 2005, the energy center is developing new energy technologies to meet the compelling national and international energy challenge by focusing on clean coal utilization; carbon dioxide separation, storage and usage; safe nuclear waste storage; renewable energy resources and energy efficiency.
For more information about the energy center and this project, visit http://energycenter.nd.edu.