D. Malaescu, I. Grozescu, P. Sfirloaga, P. Vlăzan, C. Marin
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引用次数: 0
摘要
摘要:采用标准水热法,在相同的反应温度(600℃)下制备了两种不同烧结时间的NaTaO3钙钛矿材料样品,S1为6小时,S2为12小时。x射线衍射(XRD)分析表明,样品S1和S2是Na-Ta氧化物(Ta2O5和主导相NaTaO3)的混合物。扫描电镜(SEM)分析表明,颗粒之间相互连接,形成大小约为几百纳米的团簇。给出了在室温下,在20 Hz - 2 MHz的频率范围内,样品的复阻抗Z(f) = Z′(f) - i Z′(f)的频率(f)依赖性。复阻抗的实分量Z′随频率的增加而减小,虚分量Z′有两个最大值,对应于两个弛豫过程。复阻抗谱结果显示,Z′′(Z′)为两个半圆,对应晶粒和晶界机制。用两个并联的RC等效电路串联拟合了实验结果,并对参数R和C进行了计算。
Electric Properties of NaTaO3 Obtained by Hydrothermal Method
Abstract Two samples of NaTaO3 perovskite materials were prepared by the standard hydrothermal method at the same reaction temperature (600 °C) but with different sintering times: 6 hours for sample S1 and 12 hours for sample S2. Using X-ray diffraction (XRD), it shows that samples S1 and S2 are mixtures of Na-Ta oxides (Ta2O5 and the prevailing phase NaTaO3). The scanning electron microscopy analysis (SEM), shows that the grains are connected each other in agglomerated clusters of size about few hundred nanometers. The frequency (f) dependencies of complex impedance, Z(f) = Z’(f) - i Z’’(f) of the samples, over the frequency range 20 Hz - 2 MHz, at room temperature are presented. The real component Z’ of the complex impedance decreases with increasing frequency and the imaginary component Z’’ has two maximum corresponding to two relaxation processes. The results obtained from the complex impedance spectroscopy, Z’’(Z’) showed the appearance of two semicircles, corresponding to grain and grain boundary mechanism. Experimental results have been fitted with two parallel RC equivalent circuits connected in series and the parameters R and C have been evaluated.
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