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Effect of Fast Charging of Lithium-Ion Cells: Performance and Post-Test Results
Technical Paper
2016-01-1194
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
The effect of charge rate was determined using constant-current (CC) and the USABC Fast-Charge (FC) tests on commercial lithium-ion cells. Charging at high rates caused performance decline in the cells. Representing the resistance data as ΔR vs. Rn-1 plots was shown to be a viable method to remove the ambiguity inherent in the time-based analyses of the data. Comparing the ΔR vs. Rn-1 results, the change in resistance was proportional to charge rate in both the CC and FC cell data, with the FC cells displaying a greater rate of change.
Changes, such as delamination, at the anode were seen in both CC and FC cells. The amount of delamination was proportional to charge rate in the CC cells. No analogous trend was seen in the FC cells; extensive delamination was seen in all cases. These changes may be due to the interaction of processes, such as lithium plating and i2R heating.
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Authors
- Panos D. Prezas - Argonne National Laboratory
- L. Somerville - Argonne National Laboratory and University of Warwick
- P Jennings - WMG, University of Warwick
- A McGordon - WMG, University of Warwick
- J. K. Basco - Argonne National Laboratory
- T. Duong - US Dept. of Energy
- I. Bloom - Argonne National Laboratory
Topic
Citation
Prezas, P., Somerville, L., Jennings, P., McGordon, A. et al., "Effect of Fast Charging of Lithium-Ion Cells: Performance and Post-Test Results," SAE Technical Paper 2016-01-1194, 2016, https://doi.org/10.4271/2016-01-1194.Also In
References
- USABC Electric Vehicle Battery Test Procedures Manual January 1996
- Zhang , S. S. The effect of the charging protocol on the cycle life of a Li-ion battery J. Power Sources 161 1385 1391 2006
- Anseán , D. ; González , M. ; Viera , J. C. ; García , V. M. et al. Fast charging technique for high power lithium iron phosphate batteries: A cycle life analysis J. Power Sources 239 9 15 2013
- Sikha , G. ; Ramadass , P. ; Haran , B. S. ; White , R. E. et al. Comparison of the capacity fade of Sony US 18650 cells charged with different protocols J. Power Sources 122 67 76 2003
- Notten , P. H. L. ; Op het Veld , J. H. G. ; and van Beek , J. R. G. Boostcharging Li-ion batteries: A challenging new charging concept J. Power Sources 145 89 94 2005
- Li , J. ; Murphy , E. ; Winnick , J. ; and Kohl , P. A. The effects of pulse charging on cycling characteristics of commercial lithiumion batteries J. Power Sources 102 302 309 2001
- Chung , S. K. ; Andriiko , A. A. ; Mon’ko , A. P. ; and Lee , S.H. On charge conditions for Li-ion and other secondary lithium batteries with solid intercalation electrodes J. Power Sources 79 205 211 1999
- Braithwaite , J. W. ; Gonzales , A. ; Nagasubramanian , G. ; Lucero , S. J. et al. Corrosion of Lithium-Ion Battery Current Collectors Articles J. Electrochem. Soc. 146 448 456 1999
- Frankel , G. Pitting Corrosion of Metals: A Review of the Critical Factors J. Electrochem. Soc. 145 2186 2198 1998
- Bloom , I. ; Cole , B. W. ; Sohn , J. J. ; Jones , S. A. et al. An Accelerated Calendar and Cycle Life Study of Li-Ion Cells J. Power Sources 101 238 247 2001
- Strauss , E. ; Golodnitsky , D. and Peled , E. Cathode Modification for Improved Performance of Rechargeable Lithium/Composite Polymer Electrolyte-Pyrite Battery Electrochemical and Solid State Letters 2 115 117 1999
- Blomgren , G. Electrolytes for advanced batteries J. Power Sources 81-82 112 118 1999
- Bloom , I. ; Jones , S. A. ; Battaglia , V. S. ; Henriksen , G. L. et al. Effect of Cathode Composition on Capacity Fade, Impedance Rise and Power Fade in High-Power, Lithium-Ion Cells J. Power Sources 124 538 550 2003
- Thomas , E. ; Bloom , I. ; Christophersen , J. ; and Battaglia , V. Statistical methodology for predicting the life of lithium-ion cells via accelerated degradation testing J. Power Sources 184 312 317 2008
- Burns , J. C. ; Stevens , D. A. ; and Dahn , J. R. In-Situ Detection of Lithium Plating Using High Precision Coulometry J. Electrochem. Soc. 162 A959 A964 2015
- Zhang , S. S. ; Xu K .; and Jow , T. R. Study of the charging process of a LiCoO 2 -based Li-ion battery J. Power Sources 160 1349 1354 2006