SYNTHESIS AND CHARACTERIZATION OF (Ba1-хSrx)7Nb4MoO20 POWDERS FOR PROTON-CONDUCTING SOLID OXIDE FUEL CELLS

O. Bezdorozhev, I. Solodkyi, A. Ostroverkh, I. Morozov, Y. Ostroverkh, Y. Solonin
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Abstract

This work reports on the preparation and characterization of Sr2+-doped Ba7Nb4MoO20 powders prepared by a solid-state synthesis as promising materials for solid oxide fuel cells. The influence of synthesis parameters and strontium content (x = 0; 0.05; 0.10; 0.15; 0.20) on the phase composition and properties of (Ba1-xSrx)7Nb4MoO20 powders was studied. The results of the phase analysis show that (Ba1-xSrx)7Nb4MoO20 (x = 0; 0.05; 0.10) powders with a minimum amount of secondary phases can be obtained after at least three repeated synthesis cycles at 1060–1080 оС for 10 h. According to the laser diffraction analysis, the synthesized powders comprise particles with a polydisperse size distribution spreading from 0.05 μm to 12 μm and average particle size of 2.1 μm. Electron microscopy observations support these findings and demonstrate that the particles and their aggregates have rounded irregular shape. Moreover, it was found that the morphology and particle size of the powder does not depend on the strontium content. Doping (Ba1-xSrx)7Nb4MoO20 with 15 mol.% and 20 mol.% Sr2+ leads to the formation of a significant amount of secondary phases due to exceeding the solubility limit of strontium, thus making these compositions unsuitable for use in solid oxide fuel cells.
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质子导电固体氧化物燃料电池用(Ba1-хSrx)7Nb4MoO20粉末的合成与表征
本文报道了Sr2+掺杂Ba7Nb4MoO20粉末的制备和表征,这是固体氧化物燃料电池的一种有前景的材料。合成参数和锶含量的影响(x = 0;0.05;0.10;0.15;研究了(Ba1-xSrx)7Nb4MoO20粉末的相组成和性能。相分析结果表明:(Ba1-xSrx)7Nb4MoO20 (x = 0;0.05;在1060 ~ 1080 оС温度下进行至少3次重复合成10 h,可得到二次相最少的0.10)粉末。激光衍射分析表明,合成的粉末由粒径分布在0.05 ~ 12 μm的多分散颗粒组成,平均粒径为2.1 μm。电子显微镜观察支持这些发现,并证明颗粒及其聚集体呈圆形不规则形状。此外,还发现粉末的形貌和粒度与锶含量无关。15 mol.%和20 mol.%的Sr2+掺杂(Ba1-xSrx)7Nb4MoO20后,由于锶的溶解度超出了极限,形成了大量的二次相,使得这些组合物不适合用于固体氧化物燃料电池。
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