2O9 ceramics were investigated by means of ac impedance spectroscopy, oxygen concentration cell and oxygen pump (electrochemical oxygen permeation) at 600~1000 ℃ in various at- mospher.
结果表明,氧浓差电池电动势的实测值与理论值吻合得很好,氧离子迁移数为1,表明该陶瓷样品在该温度下氧气气氛中为一纯氧离子导体;氧泵(氧的电化学透过)实验结果进一步证实了该样品在氧气气氛中为一纯氧离子导体;在氧分压p(O2)=10-5~105Pa的高氧分压气氛中,电导率与氧分压变化基本无关,表明在该氧分压范围内样品为纯离子导体,这与氧浓差电池电动势测定结果相吻合;在低氧分压为10-5~10-15Pa范围内,总电导率随氧分压降低而稍有升高,表明在该氧分压范围样品为氧离子与电子的混合导体;在600~1000℃下氧离子电导率>10-2S?cm-1,显著高于母体La2Mo2O9的氧离子电导率,1000℃时的氧离子电导率为0。
In the presence of SO_2, the EMF of the oxygen concentration cell increases, but the relation between EMF and ox.
还研究了氧化锆氧浓差电池的电动势受SO_2影响的情况,有SO_2存在时,氧浓差电池的电动势增大,但电动势与氧分压的关系不再符合Nernst公式。
The ion conduction properties of the ceramic sample have been studied by impedance spectra,oxygen concentration cell,oxygen pump(electrochemical oxygen permeation) techniques in the temperature range of 600~1000 ℃.
采用交流阻抗谱、氧浓差电池、氧泵等电化学方法系统地研究了该陶瓷样品在600~1000℃下的离子导电特性。