A series of tests were performed to differentiate between surface diffusion and vapor-phase diffusion of chemical species from LSCF cathode material at typical sintering temperatures (up to 1100°C) in SOFC production. A GDC source substrate was printed with LSCF and separated by an air gap from a YSZ target substrate. Various geometries with long surface paths were employed to reduce the possibility of surface transport. Sr and Co were detected on the target substrates via energy dispersive spectroscopy (EDS) and x-ray photoelectron spectroscopy (XPS), including spatially resolved XPS. These results support a vapor-phase transport mechanism for Sr and Co. Sintering conditions and barrier layer requirements may need to be revisited to prevent the formation of undesired strontium zirconate at cathode/electrolyte interface due to vapor-phase transport.
Published: July 15, 2021
Citation
Kirby B.W., J.S. Hardy, C.A. Coyle, N.L. Canfield, and T.C. Droubay. 2021.Sr and Co Vapor-Phase Transport from LSCF Cathodes. In 17th International Symposium on Solid Oxide Fuel Cells (SOF-XVII) July 18, 2021 - July 23, 2021 Stockholm, Sweden. ECS Transactions, 103, 1415-1424. Bristol:IOP Publishing.PNNL-SA-163853.doi:10.1149/10301.1415ecst