orrelation of oxygen non-stoichiometry to the instabilities and electrochemical performance of LiNi0.8Co0.1Mn0.1O2 utilized in lithium ion battery
In this work, we investigate the influence of oxygen non-stoichiometry on the characteristics of LiNi0.8Co0.1Mn0.1O2 cathode material. Among the investigated samples, the level of Ni/Li disorder in the bulk and the thickness of auto-generated layer on the surface share the same trend as the amount of oxygen loss in LiNi0.8Co0.1Mn0.1O2 materials. It indicates that the aforementioned key structural in- stabilities should be tightly related to the oxygen defects and the induced structural relaxation. As a consequence of structural entirety, the sample with the least defects presents the highest discharge capacity (192.9 mAhg 1 at 0.1C), the best rate capability (160.1 mAhg 1 at 5C), and the most stable cyclibility (89.9% at 200th). Our results demonstrate that oxygen deficiency plays a key role to determine the electrochemical performance of high-nickel cathode materials.
In this work, we investigate the influence of oxygen non-stoichiometry on the characteristics of LiNi0.8Co0.1Mn0.1O2 cathode material. Among the investigated samples, the level of Ni/Li disorder in the bulk and the thickness of auto-generated layer on the
Liu, Y [Liu, Yang][ 1 ]、Yang, WC [Yang, Wenchao][ 1 ]、Zhou, JJ [Zhou, Jingjing][ 1 ]、Liu, M [Liu, Meng][ 1 ]、Bi, YJ [Bi, Yujing][ 1 ]、Wang, DY [Wang, Deyu][ 1 ]、Du, R [Du, Rui][ 1 ]
能源动力工业经济
Oxygen non-stoichiometryNi/Li disorderSurface sensitivityHigh nickel cathodeLithium ion battery
Liu, Y [Liu, Yang][ 1 ],Yang, WC [Yang, Wenchao][ 1 ],Zhou, JJ [Zhou, Jingjing][ 1 ],Liu, M [Liu, Meng][ 1 ],Bi, YJ [Bi, Yujing][ 1 ],Wang, DY [Wang, Deyu][ 1 ],Du, R [Du, Rui][ 1 ].orrelation of oxygen non-stoichiometry to the instabilities and electrochemical performance of LiNi0.8Co0.1Mn0.1O2 utilized in lithium ion battery[EB/OL].(2017-05-02)[2025-08-02].https://chinaxiv.org/abs/201705.00575.点此复制
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