Degradation diagnosis of aged Li sub(4)Ti sub(5)O sub(12)/LiFePO sub(4) batteries

Li sub(4)Ti sub(5)O sub(12)/LiFePO sub(4) cells are cycled under 4 different conditions of discharge profile (galvanostatic or driving-based) and cycling rates (C/8 or 1C) during 4-5 months. All the cells exhibit capacity fade whose extent is not correlated with the aging condition. In order to unde...

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Veröffentlicht in:	Journal of power sources 2014-12, Vol.267, p.744-752
Hauptverfasser:	Castaing, Remi, Reynier, Yvan, Dupre, Nicolas, Schleich, Donald, Larbi, Severine Jouanneau Si, Guyomard, Dominique, Moreau, Philippe
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Sprache:	eng
Schlagworte:	Balancing Degradation Discharge Electrochemistry Electrodes Evolution Lithium Surface chemistry
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container_title	Journal of power sources
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creator	Castaing, Remi Reynier, Yvan Dupre, Nicolas Schleich, Donald Larbi, Severine Jouanneau Si Guyomard, Dominique Moreau, Philippe
description	Li sub(4)Ti sub(5)O sub(12)/LiFePO sub(4) cells are cycled under 4 different conditions of discharge profile (galvanostatic or driving-based) and cycling rates (C/8 or 1C) during 4-5 months. All the cells exhibit capacity fade whose extent is not correlated with the aging condition. In order to understand aging phenomena, cells are disassembled at the end of cycle life and the recovered electrodes are analyzed using electrochemistry, electron microscopy, XRD and MAS-NMR. Positive and negative electrodes show no loss in active material and no change in electrochemical activity, active material structure and composite electrode structure. This rules out any irreversible electrode degradation. Lithium stoichiometry estimated by both XRD and electrochemistry is unexpectedly low in the positive electrode when the aging is stopped at full discharge. That indicates a loss of cyclable lithium or electrons leading to cell balancing evolution. That loss may have been caused by parasitic reactions occurring at both electrodes, in accordance with their rich surface chemistry as evidenced by MAS-NMR.
doi_str_mv	10.1016/j.jpowsour.2014.06.002
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subjects	Balancing Degradation Discharge Electrochemistry Electrodes Evolution Lithium Surface chemistry
title	Degradation diagnosis of aged Li sub(4)Ti sub(5)O sub(12)/LiFePO sub(4) batteries
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