Synthesis, thermal and dielectric characteristics of Rb5Li1/3Zr5/3(MoO4)6

S. Dorzhieva, J. Bazarova
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Abstract

This work addressed the directed synthesis of a new phase Rb5Li1/3Zr5/3(MoO4)6, along with the determination of its crystallographic, thermal and electrophysical properties. The directed synthesis of the Rb5Li1/3Zr5/3(MoO4)6 phase was carried out using the solid-state reaction in the temperature range of 350–470 °C. According to differential scanning calorimetry, the synthesised compound Rb5Li1/3Zr5/3(MoO4)6, crystallised in trigonal form (space group R3c, Z = 6), undergoes a diffused first-order phase transition. The structure of triple molybdate Rb5Li1/3Zr5/3(MoO4)6 comprises MoO4 tetrahedra and octahedrally coordinated MO6-polyhedra. This structure is characterised by a statistical distribution of lithium and zirconium atoms in the M position (M1 = 0.790 Zr + 0.210 Li, M2 = 0.877 Zr + 0.123 Li). Rb atoms are located in the large voids of the tetrahedronoctahedral framework. The electrophysical properties of triple molybdate Rb5Li1/3Zr5/3(MoO4)6 having a scaffold structure favourable for ion transport, were studied. The correlation between dielectric and thermal characteristics in the high-temperature region near the phase transition was revealed. The temperature and frequency dependences of electrical conductivity were measured at 473–873 K in heating and cooling modes in the frequency range of 1–10 kHz. The compound exhibited a high thermally activated conductivity, reaching 1.48·10-2 Cm K/cm with activation energy in the range of 0.6–0.8 eV at a temperature of 480 °C. Well-shaped semicircles in the low-frequency region and unresolved arcs in the high-frequency region changing with increasing temperature were observed in the impedance spectra of ceramic Rb5Li1/3Zr5/3(MoO4)6 sample at various temperatures. The evolution of the imaginary part (Z'') as a function of the real part (Z') of the complex impedance resembled that of the complex impedance for compounds having ionic conductivity.
Rb5Li1/3Zr5/3(MoO4)6的合成、热特性和介电特性
本文研究了一种新相Rb5Li1/3Zr5/3(MoO4)6的定向合成,并测定了其晶体学、热学和电物理性质。采用固相法在350 ~ 470℃范围内定向合成了Rb5Li1/3Zr5/3(MoO4)6相。根据差示扫描量热法,合成的化合物Rb5Li1/3Zr5/3(MoO4)6发生了弥漫性一阶相变,呈三角形结晶(空间群R3c, Z = 6)。三钼酸盐Rb5Li1/3Zr5/3(MoO4)6的结构包括MoO4四面体和八面体配位的mo6多面体。这种结构的特征是锂和锆原子在M位置的统计分布(M1 = 0.790 Zr + 0.210 Li, M2 = 0.877 Zr + 0.123 Li)。Rb原子位于四面体八面体框架的大空隙中。研究了具有支架结构的三钼酸盐Rb5Li1/3Zr5/3(MoO4)6的电物理性质。揭示了相变附近高温区域的介电特性和热特性之间的相关性。在473-873 K的加热和冷却模式下,在1-10 kHz的频率范围内测量了电导率的温度和频率依赖性。该化合物表现出较高的热激活电导率,在480℃的温度下达到1.48·10-2 Cm K/ Cm,活化能在0.6-0.8 eV之间。在不同温度下,Rb5Li1/3Zr5/3(MoO4)6陶瓷样品的阻抗谱在低频区出现了形状良好的半圆,在高频区出现了随温度升高而变化的未解析弧。复阻抗的虚部(Z′)作为实部(Z′)的函数的演变与具有离子电导率的化合物的复阻抗相似。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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