On the compatibility of dual phase BaCe0.65Zr0.2Y0.15O3-based membrane for hydrogen separation application

Among dense ceramic membranes for H-2 separation, the ceramic-ceramic composite ones have recently gained the interest of the scientific community thanks to their enhanced performances. However, the ceramic phases constituting the composite must show high chemical and thermomechanical compatibility to form a crack-free and robust membrane. This work reports the compatibility between the BaCe0.65Zr0.2Y0.15O3-delta (BCZY) proton conductive system and various electron conducting systems belonging to four different families: ceria-based (CeO2 and Ce0.8Gd0.2O1.9), lanthanum nickelate cobaltite (La0.95Ni0.6Co0.4O3-delta), strontium titanate (Sr0.9La0.1TiO3-delta) and the non-oxidic alpha-SiC. This work highlights how the coupling of BCZY with chemically different electron-conductive ceramics represents a challenging task, since La0.95Ni0.6Co0.4O3, Sr0.9L0.1TiO3 and a-SiC react with the proton conductive perovskite producing many secondary phases in air and in reducing atmosphere after 4 h of permanence at 1400 degrees C. As may be expected, BCZY is chemically compatible with CeO2 and Ce0.8Gd0.2O1.9 in air and in reducing atmosphere after 4 h of permanence at 1400 degrees C. Dilatometric results prove the thermomechanical compatibility between BCZY and the ceria-based systems in the operation temperature range.