Probing the Thermal-Driven Structural and Chemical Degradation of Ni-Rich Layered Cathodes by Co/Mn Exchange

The intrinsic poor thermal stability of layered LiNi x Co y Mn1–x–y O2 (NCM) cathodes and the exothermic side reactions triggered by the associated oxygen release are the main safety threats for their large-scale implantation. In the NCM family, it is widely accepted that Ni is the stability trouble...

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Veröffentlicht in:Journal of the American Chemical Society 2020-11, Vol.142 (46), p.19745-19753
Hauptverfasser: Liu, Xiang, Xu, Gui-Liang, Yin, Liang, Hwang, Inhui, Li, Yan, Lu, Languang, Xu, Wenqian, Zhang, Xuequan, Chen, Yanbin, Ren, Yang, Sun, Cheng-Jun, Chen, Zonghai, Ouyang, Minggao, Amine, Khalil
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Sprache:eng
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Zusammenfassung:The intrinsic poor thermal stability of layered LiNi x Co y Mn1–x–y O2 (NCM) cathodes and the exothermic side reactions triggered by the associated oxygen release are the main safety threats for their large-scale implantation. In the NCM family, it is widely accepted that Ni is the stability troublemaker, while Mn has long been considered as a structure stabilizer, whereas the role of Co remains elusive. Here, via Co/Mn exchange in a Ni-rich LiNi0.83Co0.11Mn0.06O2 cathode, we demonstrate that the chemical and structural stability of the deep delithiated NCM cathodes are significantly dominated by Co rather than the widely reported Mn. Operando synchrotron X-ray characterization coupling with in situ mass spectrometry reveal that the Co4+ reduces prior to the reduction of Ni4+ and could thus prolong the Ni migration by occupying the tetrahedra sites and, hence, postpone the oxygen release and thermal failure. In contrast, the Mn itself is stable, but barely stabilizes the Ni4+. Our results highlight the importance of evaluating the intrinsic role of compositional tuning on the Ni-rich/Co-free layered oxide cathode materials to guarantee the safe operation of high-energy Li-ion batteries.
ISSN:0002-7863
1520-5126
DOI:10.1021/jacs.0c09961