Lithium ionic diffusion in lithium cobalt oxides prepared by mechanical milling

机译：机械研磨制备的锂钴氧化物中的锂离子扩散

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Li+ionic diffusion in LiCoO2 exposed to ball milling was studied by XRD, complex resistivity, and NMR. Angular frequency dependence of the complex resistivity is analyzed by using a Debye-type relaxation model. The Li+ion hopping time becomes fast by exposing to short-time milling, whereas it becomes slow by exposing to long-time milling. The activation energy of the Li+ionic diffusion in milled LiCoO2 samples varies from 0.29 to 0.36 eV as the milling time increases up to 60 h. These results suggest that exposure to appropriate milling time enhances the Li+ionic diffusion but the excessive milling is disadvantageous for the Li+ionic diffusion. In addition, an increase in the line width of 7Li NMR spectrum with increasing milling time is discussed in connection with the line width arising from magnetic cobalt ions.

机译：通过XRD，复杂的电阻率和NMR研究了暴露于球磨机的LiCoO2中的Li +离子扩散。通过使用Deyby型松弛模型分析复电阻率的角频率依赖性。通过暴露于短时铣削，Li +离子跳跃时间变得快速，而通过暴露于长时间铣削，它变慢。在研磨的LiCoO2样品中，Li +离子扩散的激活能量在0.29至0.36eV中变化，因为铣削时间增加到60小时。这些结果表明，暴露于适当的研磨时间增强了Li +离子扩散，但过量研磨对于Li +离子扩散是不利的。另外，结合由磁性钴离子产生的线宽讨论具有增加铣削时间的7LI NMR光谱的线宽的增加。

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《International conference on solid state ionics》|2008年||共4页
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中图分类物理学;
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Lithium ionic diffusion; Lithium transition-metal oxides; Mechanical milling; NMR; Complex resistivity;

机译：锂离子扩散;锂过渡金属氧化物;机械研磨;NMR;复杂电阻率;

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1. Lithium ionic diffusion in lithium cobalt oxides prepared by mechanical milling [J] . Nakamura K, Hirano H, Nishioka D, Solid state ionics . 2008,第27a32期

机译：机械研磨法制备锂钴氧化物中锂离子的扩散
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3. High performance lithium cobalt oxides prepared in molten KCl for rechargeable lithium-ion batteries [J] . Hongying Liang, Xinping Qiu, Shicao Zhang, Electrochemistry communications . 2004,第5期

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机译：纳米晶锂过氧化锂Li2O2 - 锂气电池排出产品的短程Li扩散与远程离子传导
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Lithium ionic diffusion in lithium cobalt oxides prepared by mechanical milling

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