Authors
Tanvir R Tanim, Zhenzhen Yang, Donal P Finegan, Parameswara R Chinnam, Yulin Lin, Peter J Weddle, Ira Bloom, Andrew M Colclasure, Eric J Dufek, Jianguo Wen, Yifen Tsai, Michael C Evans, Kandler Smith, Jeffery M Allen, Charles C Dickerson, Alexander H Quinn, Alison R Dunlop, Stephen E Trask, Andrew N Jansen
Publication date
2022/6
Journal
Advanced Energy Materials
Volume
12
Issue
22
Pages
2103712
Description
As the battery industry shifts toward high Ni content cathodes, such as LiNi0.8Mn0.1Co0.1O2 [NMC811], a complete understanding of the degradation mechanisms of NMC811 under extreme fast charging (XFC) (XFC, ≤10–15 min charging) conditions is needed. Such comprehensive understanding would identify the most critical materials gaps that need to be addressed for enabling XFC long‐life cells for electric vehicles. This study maps out the key aging mechanisms for NMC811 cycled at different XFC conditions (between 1C and 9C) for up to 1000 cycles. To acquire a fundamental understanding of utilization and degradation, cells are evaluated using a range of electrochemical techniques, and multimodal and multiscale microscopy techniques to quantify chemical, structural, and crystallographic degradation as a function of cycling conditions for the NMC cathode. When comparing NMC811 to NMC532, it is …
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Scholar articles
TR Tanim, Z Yang, DP Finegan, PR Chinnam, Y Lin… - Advanced Energy Materials, 2022