Diffusion and conductivity of mixed-conducting Ag/CGO composites

• Published in: Solid state ionics Vol. 204; pp. 46 - 52
• Main Authors: Seeharaj, Panpailin, Atkinson, Alan
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 12.12.2011
• Subjects: COMPOSITES; COPPER OXIDE; DENSITY; DIFFUSION; Diffusion and surface exchange coefficients; ELECTRICAL CONDUCTIVITY; ELECTRONIC PRODUCTS; Electronics; INFILTRATION; Mixed-conducting composites; Oxygen separation membranes; Secondary ion mass spectrometry; Silver; Solid state; SOLID STATE PHYSICS; Thermal expansion; Tracer diffusion; Diffusion and surface exchange coefficients; Mixed-conducting composites; Oxygen separation membranes
• ISSN: 0167-2738; 1872-7689
• DOI: 10.1016/j.ssi.2011.10.009

Dense (> 95%) interpenetrating phase composites of silver and gadolinium-doped ceria (CGO) were prepared by silver plus copper oxide (Ag-6 mol% CuO) liquid metal infiltration of porous CGO pre-forms. The composites showed high relative density (above 95%), negligible gas leakage and high electronic conductivity when the volume fraction of silver was approximately 14 vol.% or greater. Oxygen isotopic exchange and depth profiling by secondary ion mass spectrometry was used to determine the oxygen tracer diffusion ( D*) and surface exchange coefficient ( k*) of the composites. Composites with 14 vol.% silver exhibited similar solid state oxygen diffusivity and thermal expansion to CGO, combined with much faster surface exchange kinetics. These results indicate that such composites are promising for further development as passive oxygen separation membranes. ► Dense interpenetrating phase composites of silver and CGO were prepared. ► The mixed conducting Ag/CGO composites showed high relative density. ► The composites (14 vol.% of silver) showed high electronic conductivity. ► The composites exhibited similar solid state oxygen diffusivity to CGO. ► The composites exhibited much faster surface exchange kinetics than CGO. ► The composites are promising for passive oxygen separation membranes.