[1]. Chai Sh., Baia X., Li J., Liua Ch., Ding T., Tian Y., Liu Ch., Hui Xianb, Mic W. and Li X., “Effect of phase interaction on catalytic CO oxidation over the SnO2/Al2O3 model catalyst”, App. Sur. Sci.,Vol. 402, pp. 12–20, 2017. ##
[2]. Lv Sh., Xi Gu., Jin Ch., Hao Ch., Wang L., Li J., Zhang Y. and Zhu J. J., “Low-temperature CO oxidation by Co3O4 nanocubes on the surface of Co(OH)2 nanosheets”, Catal. Commun. Vol. 86, pp.100–103, 2016. ##
[3]. Khder A. E. R. S., Ashour Sh. S., Altass H. M. and Khairou K. S, “Pd nanoparticles supported on iron oxide nanorods for CO oxidation: Effect of preparation method”, J. Environ. Chem. Eng. Vol. 4, pp. 4794–4800, 2016. ##
[4]. Dong F., Zhao Y., Han W., H. Zhao, Lu G. and Tang Z., “Co nanoparticles anchoring three dimensional graphene lattice as bifunctional catalyst for low-temperature CO oxidation”, Molecul. Catal., Vol. 439, pp. 118–127, 2017. ##
[5]. Moses-Debusk M., Yoon M., Allard L.F., Mullins D.R., Wu Z., Yang X., Veith G., Stocks G.M. and Narula C. K., “CO oxidation on supported single Pt atoms: experimental and ab initio density functional studies of CO interaction with Pt atom on -Al2O3(010) surface”, J. Am. Chem. Soc., Vol. 135, pp.12634–12645, 2013. ##
[6]. Jung C., Yun J., Qadir K., Naik B., Yun J. and Park J. Y., “Catalytic activity of Pt/SiO2 nanocatalysts synthesized via ultrasonic spray pyrolysis process under CO oxidation”, Appl. Catal. B., Vol. 154, pp. 171–176, 2014. ##
[7]. Blume R., Havecker M., Zafeiratos S., Teschner D., Kleimenov E., Knop-Gericke A., Schlogl R., Barinov A., Dudin P. and Kiskinova M., “Catalytically active states of Ru (0001) catalyst in CO oxidation reaction”, J. Catal. Vol. 239, pp. 354–361, 2006. ##
[8]. Gao F., Wang Y., Cai Y. and Goodman D. W., “CO oxidation over Ru (0001) at near-atmospheric pressures: from chemisorbed oxygen to RuO2”, Surf. Sci., Vol. 603, pp.1126–1134, 2009. ##
[9]. Qiao B., Liang J. X., Wang A., Liu J. and Zhang T., “Single atom gold catalysts for low‐temperature CO oxidation”, Chinese J. Catal.,Vol. 37, pp. 1580–1586, 2016. ##
[10]. Toyoshima R., Yoshida M., Monya Y., Kousa Y., Suzuki K., Abe H., Mun B.S., Mase K., Amemiya K., and Kondoh H., “In situ ambient pressure XPS study of CO oxidation reaction on Pd (111) surfaces”, J. Phys. Chem. C, Vol. 116, pp. 18691–18697, 2012. ##
[11]. Bratan V., Munteanu C., Hornoiu C., Vasile A., Papa F., State R., Preda S., Culita D. and Ionescu N. I., “CO oxidation over Pd supported catalysts -In situ study of the electric and catalytic properties”, App. Catal. B: Environ.Vol. 207, pp. 166–173, 2017. ##
[12]. Chai Sh., Bai X., Li J., Liu C., Ding T., Tian Y., Liu Ch., Xian H., Mi W. and Li X., “Effect of phase interaction on catalytic CO oxidation over the SnO2/Al2O3 model catalyst”, Appl. Surf. Sci., Vol. 402, pp. 12–20, 2017. ##
[13]. Bao H., Zhang W., Hu Q., Jiang Z., Yang J. and Huang W., “Crystal-plane-controlled surface restructuring and catalytic performance of oxide nanocrystals”, Angew. Chem. Int. Ed., Vol. 50, pp. 12294–12298, 2011. ##
[14]. Xie X., Li Y., Liu Z.Q., Harut M. and Shen W., “Low-temperature oxidation of CO catalyzed by Co3O4 nanorods”, Nature, Vol.458, pp. 746–749, 2009. ##
[15]. Jansson J., Palmqvist A.E.C., Fridell E., Skoglundh M., Osterlund L., Thormahlen P. and Langer V., “On the catalytic activity of Co3O4, in low-temperature CO oxidation”, J. Catal., Vol. 211, pp. 387–397, 2002. ##
[16]. Le M. T., Nguyen T. T., Pham P. T. M., Bruneel E. and Driessche I. V., “Activated MnO2-Co3O4-CeO2 catalysts for the treatment of CO at room temperature”, Appl. Catal. A, Vol. 480, pp. 34–41, 2014. ##
[17]. Zhou K., Wang R., Xu B., Li Y. and Synthesis, “Characterization and catalytic properties of CuO nanocrystals with various shapes, Nanotechnology”, Vol. 17, pp. 3939–3943, 2006. ##
[18]. Liu X., Liu J., Chang Z., Sun X. and Li Y., “Crystal plane effect of Fe2O3 with various morphologies on CO catalytic oxidation”, Catal. Commun., Vol. 12, pp. 530–534, 2011. ##
[19]. Kim K. and Han J. W., “Mechanistic study for enhanced CO oxidation activity on (Mn, Fe) co-doped CeO2” (111), Catalysis Today, Vol. 293, pp. 82–88, 2016. ##
[20]. Mu G., Liu C., Wei Q. L. and Y. Huang, “Three dimensionallyorderedmacroporousCeO2-ZnO catalysts for enhanced CO oxidation”, Mater. Lett., Vol. 181, pp. 161–164, 2016. ##
[21]. Pourkhalil M., Rashidi A. and Tasharrofi S., “Catalytic oxidation of carbon monoxide on cobalt oxide catalyst supported by oxidized multiwalled carbon nanotubes”, 6th International Conference on Nanostructures (ICNS6) , Kish Island, Iran, 7-10, 2016. ##
[22] Rashidi A., Lotfi R., Fakhrmosavi E. and Zare M., “Production of single-walled carbon nanotubes from methane over Co-Mo/MgO nanocatalyst: A comparative study of fixed and fluidized bed reactors”, J. Nat. Gas Chem., Vol. 20, pp. 372-376, 2011. ##
[23]. Xing Y., Li L., Chusuei C. C. and Hull R. V., “Sonochemical Oxidation of Multiwalled Carbon Nanotubes”, Langmuir, Vol. 21, pp. 4185-4190, 2005. ##
[24] Mazov I., Kuznetsov V. L., Simonova I. A., Stadnichenko A. I., Ishchenko A. V., Romanenko A. I., Tkachev E. N. and Anikeeva O. B., “Oxidation behavior of multiwall carbon nanotubes with different diameters and morphology”, App. Surf. Sci., Vol. 258, pp. 6272-6280, 2012. ##
[25] قربانی م. و باقریان ع .، "بهینهسازی جذب سطحی با روش طراحی آزمایش پاسخ سطح برای رنگ آسترازون آبی توسط رزین کوپلیمر استایرن دی وینیل بنزن سولفونه شده"، نشریه شیمی و مهندسی شیمی ایران، شماره53، صفحات 34-25، 1395. ##
[26]. Tanaka K. i, Shou M. and Yuan Y., “Low temperature PROX reaction of CO catalyzed by Dual functional catalysis of the Pt supported on CNT, CNF, Graphite and amorphous-C with Ni-MgO, Fe and Fe-Al2O3”, J. Phys. Chem. C, Vol. 114, pp. 16917–16923, 2010. ##
[27]. Lu C. Y. and Wey M. Y., “The performance of CNT as catalyst support on CO oxidation at low temperature”, Fuel, Vol. 86, pp. 1153–1161, 2007. ##