Intergranular Cracking as a Major Cause of Long-Term Capacity Fading of Layered Cathodes
Nano Letters2017Vol. 17(6), pp. 3452–3457
Citations Over TimeTop 1% of 2017 papers
Hao Liu, Mark Wolfman, Khim Karki, Young‐Sang Yu, Eric A. Stach, Jordi Cabana, Karena W. Chapman, Peter J. Chupas
Abstract
Capacity fading has limited commercial layered Li-ion battery electrodes to 0.8Co0.15Al0.05O2 (NCA) electrode change after capacity fade following months of slow charge-discharge. The changes in the reactions that underpin energy storage after long-term cycling directly correlate to the capacity loss; heterogeneous reaction kinetics observed during extended cycles quantitatively account for the capacity loss. This reaction heterogeneity is ultimately attributed to intergranular fracturing that degrades the connectivity of subsurface grains within the polycrystalline NCA aggregate.
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