The Influence of Porous Support Morphology on the Electrochemical Performance of Solid Oxide Fuel Cells

The impact of porous support morphology on the electrochemical performance of symmetrical cathode cells was investigated. Controlling YSZ particle size, pore former content and sintering temperature, the total volume fraction of open porosity was identically kept in the range of 50-55% for all the cells. The influence of size, connectivity and distribution of the pores as well as the configuration of YSZ particles on the ohmic and polarization resistance of the cathode were studied using ac impedance spectroscopy. It was found that a calcined YSZ-based structure had the most uniform morphology. Low temperature sintered cells with an as received YSZ-based structure, however, exhibited the lowest polarization resistance. The significance of using calcined YSZ-based structures in practical development of porous YSZ supports is discussed.