Microstructural modification of the anode/electrolyte interface of SOEC for hydrogen production

Abstract

The microstructure of the anode/electrolyte interface is one of key factors to affect the hydrogen production performance of solid oxide electrolysis cells (SOECs). In this paper, a novel interfacial modification method was developed to enhance the active electrode area and the electrolysis performance via preparing a porous YSZ layer on the surface of the dense electrolyte. The effects of YSZ electrolyte pre-sintering temperature, the thickness of dense YSZ electrolyte film and preparation of porous YSZ on the microscopic morphology and the performance of single button cells were investigated. After optimization, a 9 μm porous YSZ layer was successfully prepared on the surface of a 4 μm dense YSZ electrolyte film with an OCV of 1.072 V at the temperature of 850 °C. The results of electrochemical tests showed that the current densities could elevate from −0.681 A cm−2 to −1.118 A cm−2 when electrolyzed at 1.5 V under SOEC mode after microstructural modification.