Comparison of the chemical stability of Li1-xCoO2 and Li1-xNi0.85Co0.15O2 cathodes

Chebiam RV.; Prado F.; Manthiram A.

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Comparison of the chemical stability of Li1-xCoO2 and Li1-xNi0.85Co0.15O2 cathodes

机译：Li1-xCoO2和Li1-xNi0.85Co0.15O2阴极化学稳定性的比较

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The chemical stability of the layered Li1-xCoO2 and Li1-xNi0.85Co0.15O2, cathodes is compared by monitoring the oxygen content with lithium content (1-x) in chemically delithiated samples. The Li1-xCoO2 system tends to lose oxygen from the lattice at deep lithium extraction while the Li1-xNi0.85Co0.15O2 system does not lose oxygen at least for (1 -x) > 0.3. This difference seems to result in a lower reversible (practical) capacity (140 mA h/g) for LiCoO2 compared to that for LiNi0.85Co0.15O2 (180 mA h/g). The loss of significant amount of oxygen leads to a sliding of oxide layers and the formation of a major P3 and a minor O1 phase for the end member CoO2-delta with delta = 0.33. In contrast, Ni0.85CO0.15O2-delta with a small amount of delta = 0.1 maintains the initial O-3 layer structure. (C) 2002 Elsevier Science. [References: 24]

机译：通过监控化学去锂化样品中的氧含量和锂含量（1-x），比较了层状Li1-xCoO2和Li1-xNi0.85Co0.15O2阴极的化学稳定性。 Li1-xCoO2系统倾向于在深锂提取时从晶格中失去氧，而Li1-xNi0.85Co0.15O2系统至少在（1-x）> 0.3时不会失去氧。与LiNi0.85Co0.15O2（180 mA h / g）相比，该差异似乎导致LiCoO2的可逆（实用）容量（140 mA h / g）更低。大量氧气的损失会导致氧化层滑动，并导致端部件CoO2-δ的主要P3和次要O1相形成，δ= 0.33。相反，具有少量δ＝ 0.1的Ni0.85CO0.15O2-δ保持了初始的O-3层结构。（C）2002 Elsevier科学。 [参考：24]

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《International Journal of Quantum Chemistry》 |2002年第1期|共5页
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Chebiam RV.; Prado F.; Manthiram A.;
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中图分类物理化学（理论化学）、化学物理学;
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Comparison of the chemical stability of Li1-xCoO2 and Li1-xNi0.85Co0.15O2 cathodes

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