Influence of Gd₂O₃ doping contents on conductivity of Ce_1-<i>x</i>Gd_<i>x</i>O_2-<i>δ</i> electrolyte

Gd₂O₃ doped CeO₂(GDC) was widely used in solid oxide fuel cell (SOFC) because of its high ionic conductivity at 500-700 ℃. However, during the SOFC operation, Ce⁴⁺ was reduced to Ce³⁺ at the anode side of the battery, resulting in electronic leakage, which leaded to the degradation of SOFC battery performance. The Ce_1-<i>x</i>Gd_<i>x</i>O_2-δ(<i>x</i>=0.05,0.10,0.15,0.20,0.25, mole fraction) solid electrolyte was prepared by sol-gel method. The effects of different Gd³⁺ doping amount on the total conductivity and electronic conductivity of GDC electrolyte were studied, and the relationships between the total conductivity, electronic conductivity, and temperature, oxygen partial pressure were analyzed. The results show that, when the Gd₂O₃ doping content is 0.20, the total conductivity of GDC reaches the highest 8.59&#215;10^-2 S&#183;cm^-1 at 750 ℃. The electronic conductivity decreases with the increase of Gd³⁺doping amount, and reaches the highest 6.47&#215;10^-4 S&#183;cm^-1 at 750 ℃ when Gd³⁺doping amount is 0.10. The GDC with doping amount of 0.20 highlights the highestionic conductivity because of its highest total conductivity and smaller electronic conductivity.