期刊
JOURNAL OF POWER SOURCES
卷 257, 期 -, 页码 126-137出版社
ELSEVIER
DOI: 10.1016/j.jpowsour.2014.01.105
关键词
Battery aging; LiFePO4/graphite cells; Hybrid electric vehicle; Synchrotron material characterization; Electrode utilization
资金
- Swedish Energy Agency (Energy Efficient Road Vehicles)
- Swedish Hybrid Vehicle Center (SHC)
- Swedish Energy Initiative StandUp for Energy
Aging of power-optimized commercial 2.3 Ah cylindrical LiFePO4//graphite cells to be used in hybrid electric vehicle is investigated and compared for three different aging procedures; (i) using a simulated hybrid electric vehicle cycle within a narrow SOC-range, (ii) using a constant-current cycle over a 100% SOC-range, and (iii) stored during three years at 22 degrees C. Postmortem analysis of the cells is performed after full-cell electrochemical characterization and discharge. EIS and capacity measurements are made on different parts of the disassembled cells. Material characterization includes SEM, EDX, HAXPES/XPS and XRD. The most remarkable result is that both cycled cells displayed highly uneven aging primarily of the graphite electrodes, showing large differences between the central parts of the jellyroll compared to the outer parts. The aging variations are identified as differences in capacity and impedance of the graphite electrode, associated with different SEI characteristics. Loss of cyclable lithium is mirrored by a varying degree of lithiation in the positive electrode and electrode slippage. The spatial variation in negative electrode degradation and utilization observed is most likely connected to gradients in temperature and pressure, that can give rise to current density and potential distributions within the jellyroll during cycling. (C) 2014 Elsevier B.V. All rights reserved.
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