Continuous Emission of O- Radical Anions from Solid Electrolyte Surface.

Abstract

In the present work, the possibility of continuous O− emission using the YSZ was examined. A simple experimental apparatus incorporating a gap between a YSZ (yttria stabilized zirconia) anode and a stainless steel electrode coated with gold was designed and constructed. By applying a DC voltage of 150 V across the electrode gap, the ion current, consisting of negatively charged species such as O− radical anions, could be detected by using the quadrupole mass spectrometer. The results of the variation of ion current with distance between two electrodes have revealed that the emission of O− and electrons are strongly related to the temperature and electric field. From these results, the activation energy of releasing O− from YSZ anode can be described as: E = E0 – 0.036(V/d) [kJ·mol−1].Furthermore, the electric field may decrease the activation energy of O− desorption from the YSZ anode.