Title of article :
Reassessment of conventional polarization technique to measure partial electronic conductivity of electrolytes
Author/Authors :
Lee، نويسنده , , Kyung-Ryul and Lee، نويسنده , , Jong-Ho and Yoo، نويسنده , , Han-Ill، نويسنده ,
Issue Information :
هفته نامه با شماره پیاپی سال 2010
Abstract :
Two-probe Hebb–Wagner polarization technique has been widely used to determine the partial electronic conductivity of an ionic conductor. The crucial, but often ignored pre-requisite with this technique is that the electronic over-potential at the electrodes be small enough to be neglected. In our own earlier experiences, however, this pre-requisite is not always true. In this study, we constructed a noble, 4-probe polarization cell, which allows measuring the true partial electronic conductivity without any electrode over-potential problem. We applied this new technique to 10 m/o Gd-doped CeO2 (GDC) and compared the results with those from the conventional 2-probe technique. According to the comparison, electronic conductivity of GDC from 2-probe technique is always underestimated by 2–3 times while the 4-probe technique has turned out to be in perfect agreement with the estimated value from the total conductivity in its exclusively n-type regime. In this study we will report the experimental details of this noble 4-probe polarization technique as well as its viability in partial conductivity measurement.
Keywords :
Hebb–Wagner , Polarization experiment , SOFC , GDC , Partial conductivity
Journal title :
Solid State Ionics
Journal title :
Solid State Ionics