[1] P N DYER, R E RICHARDS, S L RUSSEK et al. Ion transport membrane technology for oxygen separation and syngas production. Solid State Ionics, 134, 21-33(2000).

[2] J TONZIELLO, M VELLINI. Oxygen production technologies for IGCC power plants with CO₂ capture. Energy Procedia, 4, 637-644(2011).

[3] Q ZENG, Y B ZUO, C G FAN et al. CO₂-tolerant oxygen separation membranes targeting CO₂ capture application. Journal of Membrane Science, 335, 140-144(2009).

[4] Y Q MENG, W HE, X X LI et al. Asymmetric La_0.6Sr_0.4Co_0.2Fe_0.8O₃-_δ membrane with reduced concentration polarization prepared by phase-inversion tape casting and warm pressing. Journal of Membrane Science, 533, 11-18(2017).

[5] Z P SHAO, W S YANG, Y CONG et al. Investigation of the permeation behavior and stability of a Ba_0.5Sr_0.5Co_0.8Fe_0.2O₃-_δ oxygen membrane. Journal of Membrane Science, 172, 177-188(2000).

[6] J X YI, M SCHROEDER, T WEIRICH et al. Behavior of Ba(Co, Fe, Nb)O₃-_δ perovskite in CO₂-containing atmospheres: degradation mechanism and materials design. Chemistry of Materials, 22, 6246-6253(2010).

[7] J J LIU, T LIU, W D WANG et al. Zr_0.84Y_0.16O_1.92- La_0.8Sr_0.2Cr_0.5Fe_0.5O₃-_δ dual-phase composite hollow fiber membrane targeting chemical reactor applications. Journal of Membrane Science, 389, 435-440(2012).

[8] V V KHARTON, A V KOVALEVSKY, A P VISKUP et al. Oxygen transport in Ce_0.8Gd_0.2O₂-_δ-based composite membranes. Solid State Ionics, 160, 247-258(2003).

[9] V V KHARTON, A V KOVALEVSKY, A P VISKUP et al. Oxygen permeability of Ce_0.8Gd_0.2O₂-_δ-La_0.7Sr_0.3MnO₃-_δ composite membranes. Journal of The Electrochemical Society, 147, 2814-2821(2000).

[10] L HONG, X F CHEN, Z D CAO. Preparation of a perovskite La_0.2Sr_0.8CoO₃-_x membrane on a porous MgO substrate. Journal of the European Ceramic Society, 21, 2207-2215(2001).

[11] M IKEGUCHI, K ISHII, Y SEKINE et al. Improving oxygen permeability in SrFeCo_0.5O_x asymmetric membranes by modifying support-layer porous structure. Materials Letters, 59, 1356-1360(2005).

[12] O BÜCHLER, J M SERRA, W A MEULENBERG et al. Preparation and properties of thin La₁-_xSr_xCo₁-_yFe_yO₃-_δ perovskitic membranes supported on tailored ceramic substrates. Solid State Ionics, 178, 91-99(2017).

[13] X F CHANG, C ZHANG, W Q JIN et al. Match of thermal performances between the membrane and the support for supported dense mixed-conducting membranes. Journal of Membrane Science, 285, 232-238(2006).

[14] W FANG, F STEINBACH, Z W CAO et al. A highly efficient sandwich-like symmetrical dual-phase oxygen-transporting membrane reactor for hydrogen production by water splitting. Angewandte Chemie International Edition, 55, 8648-8651(2016).

[15] Q Y LIN, J LIN, T LIU et al. Solid oxide fuel cells supported on cathodes with large straight open pores and catalyst-decorated surfaces. Solid State Ionics, 323, 130-135(2018).

[16] J G CHENG, S W ZHA, J HUANG et al. Sintering behavior and electrical conductivity of Ce_0.9Gd_0.1O_1.95 powder prepared by the gel-casting process. Materials Chemistry and Physics, 78, 791-795(2003).

[17] B C H STEELE. Appraisal of Ce₁-_yGd_yO₂-_y/2 electrolytes for IT-SOFC operation at 500 ℃. Solid State Ionics, 129, 95-110(2000).

[18] H X LUO, K EFIMOV, H Q JIANG et al. CO₂-stable and cobalt-free dual-phase membrane for oxygen separation. Angewandte Chemie International Edition, 50, 759-763(2011).