Advanced state of charge determination in phase-separating electrodes for battery cells and in individual particles
Abstract
The objective of this proposal is to support the development and deployment of new Navy specific battery technology. The proposed academic project will develop scientifically sound fundamental understanding and characterization of battery chemistries and architect"ures, thus directly supporting the Navy s broader development and deployment objectives. The proposed academic team will have closel""y coordinated experimental and modeling elements. Although the proposed project is based upon fundamental research, the effort will" be executed to coordinate with and support a Navy initiative to develop and field inherently safe Li-ion battery systems. At least" initially, the 26650-format batteries are expected to be based on a lithium-iron-phosphate cathode and a lithium-titanate anode. Al""though there are numerous DoD applications for safe, high-performance, rechargeable batteries, a particular focus of the proposed ef"fort concerns unmanned undersea vehicle (UUV) technology.
Document Details
- Document Type
- DoD Grant Award
- Publication Date
- Sep 29, 2017
- Source ID
- N000141712849
Entities
People
- William Chueh
Organizations
- Office of Naval Research
- Stanford University
- United States Navy