背景气体成分对脉冲激光沉积外延钽酸锂 (Li3xLa1/3-xTaO3) 的化学计量和锂离子电导率的影响

Ian A. Brummel, Chuanzhen Zhou, J. Ihlefeld
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摘要

在氧气和氩气分压不同的背景气体环境中,通过脉冲激光沉积法生长了钽酸镧锂(Li3xLa1/3-xTaO3,x = 0.075)薄膜。背景气体成分从 100% 到 6.6% 的氧气不等,压力固定为 150 mTorr。在 100% 氧气中沉积的薄膜的最大离子导电率为 1.5 × 10-6 S/cm。随着背景气体中氧气含量从 100% 降至 16.6%,薄膜的离子导电率也随之降低。6.6% 氧气背景条件下产生的离子电导率接近 100% 氧气条件下薄膜的离子电导率。研究发现,随着背景气体中氧含量的降低,从靶到薄膜的锂转移单调地减少,但这并不能解释离子传导性的所有变化。测量了离子传导的活化能,发现其与测量的离子传导趋势密切相关。对 X 射线衍射结果的分析表明,薄膜的晶格参数变化也与离子传导活化能直接相关,这表明决定这些薄膜导电性的一个主要因素是离子传导瓶颈大小的变化,它控制着离子传导的活化能。
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Effect of background gas composition on the stoichiometry and lithium ion conductivity of pulse laser deposited epitaxial lithium lanthanum tantalate (Li3xLa1/3−xTaO3)
Lithium lanthanum tantalate (Li3xLa1/3−xTaO3, x = 0.075) thin films were grown via pulsed laser deposition using background gas atmospheres with varying partial pressures of oxygen and argon. The background gas composition was varied from 100% to 6.6% oxygen, with the pressure fixed at 150 mTorr. The maximum ion conductivity of 1.5 × 10−6 S/cm was found for the film deposited in 100% oxygen. The ion conductivity of the films was found to decrease with reduced oxygen content from 100% to 16.6% O2 in the background gas. The 6.6% oxygen background condition produced ion conductivity that approached that of the 100% oxygen condition film. The lithium transfer from the target to the film was found to decrease monotonically with decreasing oxygen content in the background gas but did not account for all changes in the ion conductivity. The activation energy of ion conduction was measured and found to correlate well with the measured ion conductivity trends. Analysis of x-ray diffraction results revealed that the films also exhibited a change in the lattice parameter that directly correlated with the ion conduction activation energy, indicating that a primary factor for determining the conductivity of these films is the changing size of the ion conduction bottleneck, which controls the activation energy of ion conduction.
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