[1] Oukaci, R., Singleton, A. H., Goodwin, J. G., Comparison of Patented Co FT Catalysts Using Fixed-Bed and Slurry Bubble Column Reactors, Applied catalysis A: General, 186, 129 (1999).
[2] Iglesia, E., Design, Synthesis and Use of Cobalt- Based Fischer-Tropsch Synthesis Catalysts, Applied Catalysis A: General, 161, 59 (1997).
[3] Bechara, R., Balloy, D., Vanhove, D., Catalytic Properties of Co/Al2O3 System for Hydrocarbon Synthesis, Applied Catalysis A: General, 207, 343 (2001).
[4] Steen, E. V., Prinsloo, F. F., Comparison of Preparation Methods for Carbon Nanotubes Supported Iron FT Catalysts, Catalysis Today, 71, 327 (2002).
[5] Tavasoli, A., Catalyst Composition and its Distribution Effects on the Enhancement of Activity, Selectivity and Suppression of Deactivation Rate of FTS Cobalt Catalysts, Ph.D. Thesis, University of Tehran (2005).
[6] Tavasoli, A., Mortazavi, Y., Khodadadi, A., Sadagiani, K.,Effects of Different Loadings of Ru and Re on Physico-Chemical Properties and Performance of 15 % Co/Al2O3 FTS Catalysts, Iranian Journal of Chemistry and Chemical Engineering, 35, 9 (2005).
[7] Van Berge, P.J., van de loosdrecht, J., Barradas, S., can der karaan, A. M., Oxidation of Cobalt Based Fischer-Tropsch Catalysts as a Deactivation Mechanism, Catalysis Today, 58, 321 (2000).
[8] Jacobs, G., Das, T., Zhang, Y., Li, J., Racoillet, G., Davis, B.H., Fischer-Tropsch Synthesis: Support, Loading, and Promoter Effects on the Reducibility of Cobalt Catalysts, Applied Catalysis A: General, 233, 263 (2002).
[9] Reuel, R.C., Bartholomew, C.H., Effects of Support and Dispersion on the CO Hydrogenation Activity/ Selectivity Properties of Cobalt, Journal of Catalysis, 85, 78 (1984).
[10] Bezemer, G. L., van laak, A., van Dillen, A. J., de Jong, K. P., Cobalt Supported on Carbon Nanofibers- a Promising Novel FT Catalyst, Journal of Studies In Surface Science and Catalysis, 147, 259 (2004).
[11] Serp, P., Corrias, M., Kalck, P., Carbon Nanotubes and Nanofibers in Catalysis, Applied catalysis A: General, 253, 337(2003).
[12] Tavasoli, A., Sadaghiani, K., Nakhaeipour, A., Ghalbi Ahangari, M.,Cobalt Loading Effects on the Structure and Activity for Fischer-Tropsch and Water-Gas Shift Reactions of Co/Al2O3 Catalysts, Iranian Journal of Chemistry and Chemical Engineering, 26, 9 (2007).
[13] Tavasoli, A., Mortazavi, Y., Khodadadi, A., Karimi, A., Accelerated Deactivation and Activity Recovery Studies of Ruthenium and Rhenium Promoted Cobalt Catalysts in Fischer-Tropsch Synthesis, Iranian Journal of Chemistry and Chemical Engineering, 36, 25 (2005).
[14] Hilmen, A. M., Schanke, D., Hansesen, K. F., Holmen, A., Study of the Effect of Water on Alumina Supported Cobalt Fischer-Tropsch Catalysts, Applied Catalysis A: General, 186, 169 (1999).
[15] Zhang, J., Chen, J., Li, Y., Sun, Y., Recent Technological Developments in Cobalt Catalysts for FTS, Journal of Natural Gas Chemistry, 11, 99 (2002).