柠檬酸EDTA络合溶胶-凝胶法制备Ba0.96Sr0.04Ce0.7Zr0.3O3固体氧化物燃料电池电解质及表征

International Letters of Chemistry, Physics and Astronomy Pub Date : 2016-11-01 DOI:10.18052/WWW.SCIPRESS.COM/ILCPA.71.1

J. Sailaja, N. Murali, K. Samatha, V. Veeraiah

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引用次数: 2

摘要

本文报道了在温度T=1000℃下柠檬酸盐- edta络合溶胶-凝胶法制备BaCe0.7Zr0.3O3电解质时，锶掺杂对电解质性能的影响。采用x射线衍射仪(XRD)、热分析仪(TG-DTA)研究了相的形成和随温度的演化。采用SEM -扫描电镜、dax -能量色散x射线能谱仪、ftir -傅立叶变换红外光谱仪、ftrs -拉曼光谱仪对烧结粉末在1300℃时的形貌进行了研究。根据Scherrer方程计算得到陶瓷粉末的晶粒尺寸为28nm，衍射峰向较高角度偏移。烧结粉末的显微组织表明，烧结粉末的平均晶粒尺寸在2mm左右。Sr的加入抑制了类CeO2第二相的形成，促进了烧结氧化物的晶粒生长。在1300℃下得到致密的陶瓷材料，相对密度为理论密度的80%。FTIR和拉曼测量揭示了钙钛矿结构完整的单相形成。从室温到400℃对颗粒的离子电导率进行了研究，发现颗粒的离子电导率为1.1x10-4S/cm(400℃)。电导率随温度升高而升高，活化能为0.48eV，是一种很有前途的电解质。

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Synthesis and Characterization of Ba0.96Sr0.04Ce0.7Zr0.3O3 Solid Oxide Fuel Cell Electrolyte by Citrate EDTA Complexing Sol-Gel Process

This paper reports on the effect of Strontium doping on BaCe0.7Zr0.3O3 electrolyte prepared using the citrate-EDTA complexing sol-gel process at temperature T=1000°C. The phase formation and evolution with the temperature has been studied by X-ray diffraction (XRD), thermal analysis (TG-DTA).The morphology of the sintered powder at T=1300°C are examined by SEM - Scanning Electron MicroscopyEDAX - Energy-dispersive X-ray spectroscopy analysisFTIR - Fourier transforms infrared spectrometer FTRS-Raman measurementsThe crystallite size of the ceramic powders calculated from Scherrer equation is 28nm and the diffraction peak shifted to higher angles. Microstructure of the sintered powder revealed that the average grain size is in the range of 2mm. The incorporation of Sr is found to suppress the formation of CeO2 like second phase and enhance the grain growth in sintered oxides. Dense ceramic materials were obtained at 1300°C and the relative density is 80% of the theoretical density. FTIR and Raman measurements reveal the complete single phase formation of the orthorhombic perovskite structure. The ionic conductivity of the pellet is investigated from room temperature to 400°C and is found to be 1.1x10-4S/cm (400°C). The conductivity increased as temperature increases and the activation energies is 0.48eV and hence this composition qualifies to be a promising electrolyte.

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International Letters of Chemistry, Physics and Astronomy

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