Impact of Electrolyte Additives on the Lifetime of High Voltage NMC Lithium-Ion Pouch Cells

This work involves improving the lifetime of lithium-ion cells during high voltage cycling using electrolyte additives. Three generations of electrolyte additives were investigated and screened in NMC442/graphite pouch cells using a 24 h voltage-hold protocol at 40 °C to accelerate oxidative reactio...

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Veröffentlicht in:	Journal of the Electrochemical Society 2024-11, Vol.171 (11), p.110510
Hauptverfasser:	Azam, Saad, Aiken, C. P., Meisner, Quinton, MacLennan, Holden, Song, Wentao, Liu, Qian, Yoo, Dong-Joo, Aftanas, Stuart, Oxner, J. M., Liao, Chen, Garayt, Matthew D. L., Hamam, Ines, Zhang, Zhengcheng, Dahn, J. R.
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Sprache:	eng
Schlagworte:	batteries – Li-ion electrolyte additives high voltage NMC cells impedance growth improved lifetime transition metal deposition
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container_title	Journal of the Electrochemical Society
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creator	Azam, Saad Aiken, C. P. Meisner, Quinton MacLennan, Holden Song, Wentao Liu, Qian Yoo, Dong-Joo Aftanas, Stuart Oxner, J. M. Liao, Chen Garayt, Matthew D. L. Hamam, Ines Zhang, Zhengcheng Dahn, J. R.
description	This work involves improving the lifetime of lithium-ion cells during high voltage cycling using electrolyte additives. Three generations of electrolyte additives were investigated and screened in NMC442/graphite pouch cells using a 24 h voltage-hold protocol at 40 °C to accelerate oxidative reactions occurring at 4.4 V. Once promising additives and combinations were identified, they were then tested in cobalt-free NMC640/graphite cells for long-term cycling to upper cutoff voltages of 4.3, 4.4, and 4.5 V at temperatures of 20, 40, and 55 °C. Degradation mechanisms were probed using dV/dQ analysis, micro-X-ray fluorescence spectroscopy, and electrochemical impedance spectroscopy. The primary failure mode of cells held at high voltages is due to increase in cell impedance, which is correlated to the dissolution of transition metals, specifically manganese, originating from the positive electrode. We believe this dissolution is presumably due to the formation of a high impedance rock salt surface layer on the NMC positive electrode particles. Such deleterious outcomes can be limited by selecting an appropriate electrolyte additive package. It is hoped that this paper can provide a starting point for developing NMC Li-ion cells that can operate to voltages as high as 4.4 V and still display long lifetimes.
doi_str_mv	10.1149/1945-7111/ad8d0c
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P. ; Meisner, Quinton ; MacLennan, Holden ; Song, Wentao ; Liu, Qian ; Yoo, Dong-Joo ; Aftanas, Stuart ; Oxner, J. M. ; Liao, Chen ; Garayt, Matthew D. L. ; Hamam, Ines ; Zhang, Zhengcheng ; Dahn, J. R.</creator><creatorcontrib>Azam, Saad ; Aiken, C. P. ; Meisner, Quinton ; MacLennan, Holden ; Song, Wentao ; Liu, Qian ; Yoo, Dong-Joo ; Aftanas, Stuart ; Oxner, J. M. ; Liao, Chen ; Garayt, Matthew D. L. ; Hamam, Ines ; Zhang, Zhengcheng ; Dahn, J. R.</creatorcontrib><description>This work involves improving the lifetime of lithium-ion cells during high voltage cycling using electrolyte additives. Three generations of electrolyte additives were investigated and screened in NMC442/graphite pouch cells using a 24 h voltage-hold protocol at 40 °C to accelerate oxidative reactions occurring at 4.4 V. Once promising additives and combinations were identified, they were then tested in cobalt-free NMC640/graphite cells for long-term cycling to upper cutoff voltages of 4.3, 4.4, and 4.5 V at temperatures of 20, 40, and 55 °C. Degradation mechanisms were probed using dV/dQ analysis, micro-X-ray fluorescence spectroscopy, and electrochemical impedance spectroscopy. The primary failure mode of cells held at high voltages is due to increase in cell impedance, which is correlated to the dissolution of transition metals, specifically manganese, originating from the positive electrode. We believe this dissolution is presumably due to the formation of a high impedance rock salt surface layer on the NMC positive electrode particles. Such deleterious outcomes can be limited by selecting an appropriate electrolyte additive package. 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Three generations of electrolyte additives were investigated and screened in NMC442/graphite pouch cells using a 24 h voltage-hold protocol at 40 °C to accelerate oxidative reactions occurring at 4.4 V. Once promising additives and combinations were identified, they were then tested in cobalt-free NMC640/graphite cells for long-term cycling to upper cutoff voltages of 4.3, 4.4, and 4.5 V at temperatures of 20, 40, and 55 °C. Degradation mechanisms were probed using dV/dQ analysis, micro-X-ray fluorescence spectroscopy, and electrochemical impedance spectroscopy. The primary failure mode of cells held at high voltages is due to increase in cell impedance, which is correlated to the dissolution of transition metals, specifically manganese, originating from the positive electrode. We believe this dissolution is presumably due to the formation of a high impedance rock salt surface layer on the NMC positive electrode particles. 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title	Impact of Electrolyte Additives on the Lifetime of High Voltage NMC Lithium-Ion Pouch Cells
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