Synthesis, Structural, Electrical and Thermal Properties of ScFeO 3 Ceramic

American Journal of Modern Physics Pub Date : 2017-09-25 DOI:10.11648/J.AJMP.20170606.14

F. Bhadala, V. Jha, L. Suthar, M. Roy

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引用次数: 11

Abstract

The ceramic sample of ScFeO3 (SFO) has been prepared by standard high temperature solid state reaction method using high purity oxides. The formation of the compound as well as structural analysis has been carried out by X-ray diffraction method which confirmed the rhombohedral symmetry with polar space group R3c. The average grain size obtained by the Scherrer formula is of the order of 560 A. The surface morphology of SFO has been investigated by Atomic Force Microscopy (AFM). The average roughness obtained by two dimensional surface morphology ranges from 5.80 nm to 20.2 nm for surface area 5×5μm2 to 10×10μm2 respectively. The dielectric constant and dielectric loss as a function of frequency (100Hz-1MHz) and temperature (RT-650K) have been measured. At RT and 1kHz frequency the material shows high dielectric constant value (around 1800) with lossy nature. The transport properties such as I-V characteristics, ac and dc conductivities have been measured and activation energy was calculated using the Arrhenius relation. The I-V characteristic along with ac and dc conductivity studies show semiconducting behaviour with dc activation energy of 0.81eV. The Magnetic measurement indicates weak ferromagnetic behaviour. The Enthalpy change (ΔH), Specific heat (Cp) and % Weight-loss of the compound have been measured using DTA/TGA technique. The DTA curve shows transition around 1088K with Cp =2.3Jg-1K-1 and ΔH=18.4Jg-1. The low weight loss (around 2%) from RT -1200K suggest that the material is thermally stable. The results are discussed in detail.

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scfeo3陶瓷的合成、结构、电学和热性能

以高纯氧化物为原料，采用标准高温固相反应法制备了ScFeO3 (SFO)陶瓷样品。用x射线衍射方法对化合物的形成和结构进行了分析，证实了化合物具有R3c极性空间群的菱面体对称性。由Scherrer公式得到的平均晶粒尺寸约为560a。用原子力显微镜(AFM)研究了SFO的表面形貌。二维表面形貌得到的平均粗糙度为5.80 nm ~ 20.2 nm，表面积为5×5μm2 ~ 10×10μm2。测量了介电常数和介电损耗随频率(100Hz-1MHz)和温度(RT-650K)的变化规律。在RT和1kHz频率下，材料表现出高介电常数值(约1800)，具有损耗性。利用Arrhenius关系式测量了其输运特性，如I-V特性、交直流电导率等，并计算了活化能。I-V特性以及交流和直流电导率研究表明，直流活化能为0.81eV时具有半导体特性。磁测量显示弱铁磁行为。用DTA/TGA技术测定了化合物的焓变(ΔH)、比热(Cp)和%失重率。DTA曲线在1088K附近发生跃迁，Cp =2.3Jg-1K-1， ΔH=18.4Jg-1。RT -1200K的低重量损失(约2%)表明该材料是热稳定的。对结果进行了详细的讨论。

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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American Journal of Modern Physics

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