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Role of a sodium glassy binder on microstructure and electrical conductivity of beta-alumina-based gas sensors

Interactions between β-Al2O3 and a sodium aluminosilicate conductive glass, after thermal treatment at 900 °C, have been investigated on screen-printed gas sensors. Due to the high level of glass additions, the starting powder made of β/β″-alumina, underwent strong compositional modifications. SEM and TEM imaging, coupled with chemical analysis, evidenced the formation of nepheline and α-Al2O3 at the interface between β-Al2O3 and the glass. Impedance spectroscopy measurements revealed that the higher the glass content, the larger was the conductivity decrease because of these microstructural changes.
Year: 
DOI: 
10.1016/j.ceramint.2003.08.001
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