Systematic investigation on new SrCo_1-yNb_yO _3-δ ceramic membranes with high oxygen semi-permeability

SrCo_1-yNb_yO_3-δ (y = 0.025-0.4) were synthesized for oxygen separation application. The crystal structure, phase stability, oxygen nonstoichiometry, electrical conductivity, and oxygen permeability of the oxides were systematically investigated. Cubic perovskite, with enhanced phase stability at higher Nb concentration, was obtained at y = 0.025-0.2. However, the further increase in niobium concentration led to the formation of impurity phase. The niobium doping concentration also had a significant effect on electrical conductivity and oxygen permeability of the membranes. SrCo_0.9Nb_0.1O_3-δ exhibited the highest electrical conductivity and oxygen permeability among the others. It reached a permeation flux of ∼2.80 × 10^-6 mol cm ^-2 s^-1 at 900°C for a 1.0-mm membrane under an air/helium oxygen gradient. The further investigation demonstrated the oxygen permeation processwas mainly rate-limited by the oxygen bulk diffusion process.