Abstract
To lower operating temperatures of solid oxide fuel cells (SOFCs), the development of ion-conducting oxides with high conductivity and durability is desired. In this work, we investigated Zr-substituted “Ba3Y4O9” as an ionic conductor at intermediate temperatures and found that the Zr substitution for Y dramatically improves the phase stability in humidified atmospheres at 300–800 °C. The total electrical conductivity of nominally 20 mol% Zr-substituted Ba3Y4O9 sample is about 0.1 mS/cm at 500 °C in both dry H2 and O2 atmospheres. Because an increase in the conductivity in a humidified atmosphere was not observed, the conducting carriers may be oxygen ions. Besides, in the Zr-substituted “Ba3Y4O9” samples, we observed that BaO-rich phase coexists with the main phase whose composition is estimated to be Ba:(Y + Zr) ~ 2:3. Therefore, the main conducting phase might be Ba-deficient Ba3Y4O9. The mechanism of the ionic conduction and the improvement of chemical stability has not been revealed yet due to the lack of crystallographic information about the Ba-deficient phase. While we are now working on further investigation, we promptly report the characteristic of the new compound.
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