Voltage prediction of nano-sized LiNiO_2 cathode for use in Li-ion cells

J. Yamaki; M. Makidera; T. Kawamura; M. Egashira; S. Okada

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Voltage prediction of nano-sized LiNiO_2 cathode for use in Li-ion cells

机译：用于锂离子电池的纳米LiNiO_2阴极的电压预测

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The effect of cathode particle size on cell potential was investigated using a voltage prediction method from the Coulomb potential created by the atoms of a cathode active material. LiNiO_2 was selected as a typical cathode of an ordered rock salt structure. From the calculation, it was found that the voltage changes when the size becomes less than about 10 nm. The voltage increased with decreasing in-plane size, and decreased with decreasing the number of layers.

机译：使用电压预测方法，根据由阴极活性材料的原子产生的库仑电势，研究了阴极粒径对电池电势的影响。选择LiNiO_2作为有序岩盐结构的典型阴极。从计算中发现，当尺寸小于约10nm时，电压改变。电压随着平面尺寸的减小而增加，并且随着层数的减少而减小。

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来源
《Journal of power sources》 |2006年第2期|p.245-250|共6页
作者
J. Yamaki; M. Makidera; T. Kawamura; M. Egashira; S. Okada;
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作者单位

Institute for Materials Chemistry and Engineering, Kyushu University, 6-1 Kasuga Koen, Kasuga 816-8580, Japan;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类能源与动力工程;
关键词
lithium ion cells; LiNiO_2; voltage; nano-size; calculation; coulomb potential;

机译：锂离子电池LiNiO_2电压纳米计算库仑电势;

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机译：在常规水溶液中LINIO_2表面上的阴极电解质间膜：改善LINIO_2电极的电化学性能的简单方法，用于锂离子电池水溶液
2. Nano-Sized AlPO4 Coating Layer on Graphite Powder to Improve the Electrochemical Properties of High-Voltage Graphite/LiNi0.5Mn1.5O4 Li-Ion Cells [J] . Zeng Huanna, He Jia, Fang Danyang, Energy Technology: Generation,Conversion,Storage,Distribution . 2019,第9期

机译：石墨粉末纳米型AlPO4涂层，提高高压石墨/ LINI0.5MN1.5O4锂离子细胞的电化学性能
3. Designing In-Situ-Formed Interphases Enables Highly Reversible Cobalt-Free LiNiO_2 Cathode for Li-ion and Li-metal Batteries [J] . Tao Deng, Xiulin Fan, Longsheng Cao, Joule . 2019,第10期

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4. The Use of Methyl Butyrate-Based Electrolytes with Additives to Enable the Operation of Li-Ion Cells with High Voltage Cathodes over a Wide Temperature Range [C] . F. C. Krause, C. Hwang, B. V. Ratnakumar, Meeting of The Electrochemical Society;Symposium on Lithium-Ion Batteries . 2014

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5. Battery State of Charge Estimation by Cell Voltage Distribution Using Bayesian Prediction [D] . Hamada, Wataru. 2019

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6. LiCoPO4 cathode from a CoHPO4·xH2O nanoplate precursor for high voltage Li-ion batteries [O] . Daiwon Choi, Xiaolin Li, Wesley A. Henderson, 2016

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7. Quantifying structure dependent responses in Li-ion cells with excess Li spinel cathodes: matching voltage and entropy profiles through mean field models [O] . Steffen Schlueter, Ronny Genieser, Daniel Richards, 2018

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Voltage prediction of nano-sized LiNiO_2 cathode for use in Li-ion cells

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