1 Jiang, H.Y., Zhang, B.Q., Lin, Y.S., Li, Y.D., “Synthesis of zeolite membranes”, Chinese Science Bulletin, 49(24), 2547—2554 (2004). 2 Cot, L., Guizard, C., Larbot, A., “Novel ceramic material for liquid separation process: Present and prospective application in microfiltration and ultrafiltration”, Indus-trial Ceramics, 8, 143—148 (1988). 3 Wu, J.C.S., Cheng, L.C., “An improved synthesis of ul-trafiltration zirconia membranes via the sol-gel route us-ing alkoxide precursor”, Journal of Membrane Science, 167, 253—261 (2000). 4 Asaeda, M., Sakou, Y., Yang, J.H., “Stability and per-formance of porous silica–zirconia composite mem-branes for pervaporation of aqueous organic solutions”, Journal of Membrane Science, 209, 163—175 (2002). 5 Kim, J., Lin, Y.S., “Sol-gel synthesis and characterization of yttria stabilized zirconia membranes”, Journal of Membrane Science, 139, 75—83 (1998). 6 Xu, L.M., “Preparation and thermal stability of zirconia composite membranes”, Master Thesis, Tianjin Univer-sity, China (2005). (in Chinese) 7 Lang, L., “In-situ growth of continuous b-oriented sili- calite-1 zeolite membranes”, Master Thesis, Tianjin University, China (2006). (in Chinese) 8 Guizard, C., Legault, F., Idrissi, N., Larbot, A., Col, T., Gavach, C., “Electronically conductive mineral mem-brane designed for electro-ultrafiltration”, Journal of Membrane Science, 41, 127—142 (1989). 9 Xu, Q.Y., Anderson, M.A., “Sol-gel route to synthesis of microporous ceramic membranes: Thermal stability of TiO2-ZrO2 mixed oxides”, Journal of the American Ce-ramic Society, 76, 2093—2097 (1993). 10 Etienne, J., Larbot, A., Julbe, A., Guizard, C., Cot, L., “A microporous zirconia membrane prepared by the sol-gel process from zirconyl oxalate”, Journal of Membrane Science, 86, 95—102 (1994). 11 Ju, X.S., Huang, P., Xu, N.P., “Influences of sol and phase stability on structure and performance of mesoporous zirconia membranes”, Journal of Membrane Science, 166, 41—50 (2000). 12 Lin, Y.S., Chang, C.H., Gopalan, R., “Improvement of thermal stability of porous nanostructured ceramic membranes”, Industrial & Engineering Chemistry Re-search, 33, 860—870 (1994). 13 Ju, X.S., Huang, P., Xu, N.P., Shi, J., “Study of factors influencing pore size of zirconia ultrafiltration mem-brane”, J. Chem. Eng. of Chinese Univ., 14(2), 103—108 (2000) . (in Chinese) 14 Shi, L., Tin, K.C., Wong, N.B., “Thermal stability of zirconia membranes”, Journal of Materials Science, 34, 3367—3374 (1999). 15 Tu, J.B., Jiang, B.H., “The size effect of the martensitic transformation in ZrO2-containing ceramics”, Journal of Materials Science, 29, 1662—1665 (1994). 16 Hao, Y.X., Li, J.S., Yang, X.J., Lu, L.D., Wang, X., “Preparation and characterization of Al2O3-ZrO2 com-posite membrane”, Chinese Journal of Inorganic Chem-istry, 18, 245—248 (2002) . (in Chinese) 17 Fan, J., Ohya, H., Suga, T., Ohashi, H., Yamashita, K., Tsuchiya, S., Aihara, M., Takeuchi, T., Negishi, Y., “High flux zirconia composite membrane for hydrogen separa-tion at elevated temperature”, Journal of Membrane Sci-ence, 170, 113—125 (2000).
|