纳米晶锂钴氧化物的化学合成及稳态表征

Q2 Multidisciplinary Universitas Scientiarum Pub Date : 2020-06-16 DOI:10.11144/javeriana.sc25-2.csas

J. Gómez-Cuaspud, A. Y. Neira-Guio, E. Vera-López, Luís C. Canaría-Camargo

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引用次数: 0

摘要

锂钴氧化物（LiCoO2）是锂离子电池中最相关的成分之一。LiCoO2备受追捧的特征阵列取决于其合成方法。在本工作中，我们合成并表征了通过湿法化学合成方法获得的纳米晶体LiCoO2氧化物。所获得的氧化物是纳米范围（5-8nm）内的均匀粉末，并表现出一系列改进的性能。通过FTIR和UV-Vis技术进行表征，确定柠檬酸盐物种是合成过程第一步的主要产物。X射线衍射（XRD）、拉曼和透射电子显微镜（TEM）表征导致鉴定合成的LiCoO2氧化物的纯晶相。稳态电学表征和固态阻抗谱确定了合成氧化物的高电导。所有这些特征在锂离子电池阴极的设计中都是合乎需要的。

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Chemical synthesis and steady state characterization of a nanocrystalline lithium cobalt oxide

Lithium cobalt oxide (LiCoO2) is one of the most relevant components in lithium-ion batteries. The array of sought-after features of LiCoO2 depends on its synthesis method. In this work we synthesized and characterized a nanocrystalline LiCoO2 oxide obtained with a wet chemistry synthesis method. The oxide obtained was a homogeneous powder in the nanometric range (5-8 nm) and exhibited a series of improved properties. Characterization by FTIR and UV-Vis techniques led to identifying citrate species as main products in the ﬁrst step of the synthesis process. X-ray diffraction (XRD), Raman, and transmission electron microscopy (TEM) characterizations led to identifying a pure crystalline phase of the synthesized LiCoO2 oxide. Steady state electrical characterization and solid-state impedance spectroscopy determined the high conductance of the synthesized oxide. All these features are desirable in the design of cathodes for lithium ion batteries.

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