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Spin Coating of a Ca(Ti,Fe)O 3 Dense Film on a Porous Substrate for Electrochemical Permeation of Oxygen

1997; Wiley; Volume: 80; Issue: 6 Linguagem: Inglês

10.1111/j.1151-2916.1997.tb02992.x

1551-2916

Hideaki Itoh, Hiroshi Asano, Keika Fukuroi, Makoto Nagata, H. Iwahara,

Ferroelectric and Piezoelectric Materials

A dense Ca(Ti 0.75 Fe 0.25 )O 3−α (Ca(Ti,Fe)O 3 ) film, which is a mixed conductor of oxide ions and electrons/holes, was prepared on a porous CaTiO 3 substrate by a spin‐coating method. The calcined Ca(Ti,Fe)O 3 powder with 2–3 μm grain sizes was mixed with a dispersant in ethanol to form the slurry for spin coating. A uniform Ca(Ti,Fe)O 3 green film was obtained at 1000–1500 rpm on the rotating porous CaTiO 3 substrate, which had an average pore diameter of a few micrometers. The optimum sintering conditions for the spin‐coated films were a soaking temperature of 1235°C and a holding time of 2 h, in air. A dense, sintered Ca(Ti,Fe)O 3 film }20–50 μm thick was prepared by repeating the coatingsintering process. The gas‐tight film prepared on the porous substrate exhibited higher electrochemical permeation of oxygen at an operating temperature of 1000°C compared with that of thicker, sintered Ca(Ti,Fe)O 3 disks.