The conductivity of compositions in the ZrO2-Ln2O3 and ZrO2-MO2-Ln2O3 systems, where M was Hf or Ce and Ln was a lanthanide, was studied. The highest conductivity (0.3S/cm at 1000C) was found for the ZrO2-Sc2O3 system. The addition of MO2 to ZrO2-Ln2O3 systems decreased the conductivity. The conduction mechanism in ZrO2-based oxide ion conductors was explained in terms of the dopant ionic radius. The aging effect of the conductivity in ZrO2-Ln2O3 systems was measured at 800 to 1000C. Compositions with a high Ln2O3 content did not exhibit any significant conductivity degradation.
Zirconia-Based Oxide Ion Conductors for Solid Oxide Fuel Cells. O.Yamamoto, Y.Arachi, H.Sakai, Y.Takeda, N.Imanishi, Y.Mizutani, M.Kawai, Y.Nakamura: Ionics, 1998, 4[5-6], 403-8
Table 217
Ionic Conduction Parameters for ZrO2-10mol%Sc2O3
Temperature (K) | ln[o (SK/cm)] | E (kJ/mol) |
1770-1450 | 4.91 | 56 |
1450-1220 | 5.21 | 62 |
1220-1060 | 5.49 | 70 |
1060-950 | 6.15 | 84 |
950-840 | 6.90 | 97 |
840-740 | 8.04 | 116 |
< 740 | 8.83 | 127 |
Sc: ionic radius = 0.0745, polarizability = 0.0008