Conductivity of porous Sm_2O_3-doped CeO_2 as a function of temperature and oxygen partial pressure

摘要

Porous samples of Sm_2O_3-doped CeO_2 (samaria-doped ceria, SDC) of composition Sm_(0.15)Ce_(0.85)O_(2-癈. Crystal structure and microstruc-ture of the samples were characterized, respectively, by X-ray diffraction (XRD) and scanning electron microscopy (SEM). Electrical conductivity was measured using a four probe DC method over a temperature range from 200 ℃ to 800 ℃, and over a wide range of oxygen partial pressures corresponding to testing in oxygen and in nearly dry hydrogen. Conductivity rapidly stabilized at any given temperature consistent with the attainment of thermodynamic equilibrium corresponding to the imposed conditions. At and below 300 ℃, the conduction was predominantly due to oxygen ion transport. At and above 400 ℃, however, significant electronic conduction occurred in reducing atmospheres. The ionic transference number of SDC at 400 ℃ in hydrogen is only ~0.4. This result shows that the electrolytic domain of SDC at and above 400 ℃ is rather narrow. These results also suggest that SDC (and possibly other rare earth oxide-doped CeO_2) is not a suitable electrolyte without a thin electron blocking layer such as yttria-stabilized zirconia (YSZ).