火花等离子烧结法制备La(2/3−x)Li3xTiO3陶瓷的结构和锂离子电导率表征

Trong Le Dinh, Tin Nguyen Huu, Hao PHAM VAN
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摘要

本文采用高能球磨和放电等离子烧结的方法制备了La(2/3)-xLi3xTiO3 (LLTO)致密陶瓷样品。采用x射线粉末衍射、FE-SEM对样品的晶体结构、微观结构进行了表征,并用交流阻抗谱研究了样品的锂离子导电性能。在21℃时,LLTO陶瓷样品的晶粒电导率和晶界/总电导率分别为σg = 8.3×10-4 S cm-1和σgb = 2.3×10-5 S cm-1。在21 ~ 120℃的研究温度范围内,离子的传导机制是热激活的。晶粒和晶界电导率的活化能分别为Eag = 0.26 eV和Eagb = 0.43 eV。关键词:高能机械铣削,LLTO陶瓷,火花等离子烧结,锂离子电导率,阻抗分类数:81.05我,81.20。电动汽车,72.20。我,61.72。82.47毫米,。Aa, 84.37。+ q
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CHARACTERIZATION OF STRUCTURE AND Li-IONIC CONDUCTIVITY OF La(2/3−x)Li3xTiO3 CERAMICS PREPARED BY SPARK PLASMA SINTERING
In this work, La(2/3)-xLi3xTiO3 (LLTO) dense ceramic samples have been prepared by high-energy ball milling and spark plasma sintering (SPS) route. The crystal structures, microstructures of the samples were characterized by X-ray powder diffraction, FE-SEM, and their Li-ion conductive properties investigated by AC impedance spectroscopy. At 21 oC, the LLTO ceramic samples possessed the grain conductivity and grain boundary/total conductivity of σg = 8.3×10-4 S cm-1 and σgb = 2.3×10-5 S cm-1, respectively. In the research temperature range from 21 oC to 120 oC, the mechanism of ion conduction is thermally activated. The activation energies for grain and grain boundary conductivities are Eag = 0.26 eV and Eagb = 0.43 eV, respectively. Keywords: High energy mechanical milling, LLTO ceramics, Spark plasma sintering, Lithium ionic conductivity, Impedance Classification numbers: 81.05.Je, 81.20.Ev, 72.20.-i, 61.72.Mm, 82.47.Aa, 84.37.+q
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