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Original Articles

Sol-gel enhanced mesoporous Cu-Ce-Zr catalyst for toluene oxidation

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Pages 878-892 | Received 05 Sep 2017, Accepted 08 Dec 2017, Published online: 26 Feb 2018

References

  • Bai, G.M., Dai, H.X., Deng, J.G., Liu, Y.X., Qiu, W.G., Zhao, Z.X., Li, X.W., and Yang, H.G. 2013. The microemulsion preparation and high catalytic performance of mesoporous NiO nanorods and nanocubes for toluene combustion. Chem. Eng. J., 219, 200–208.
  • Bin, F., Song, C.L., Lv, G., Song, J.O., Wu, S.H., and Li, X.D. 2014. Selective catalytic reduction of nitric oxide with ammonia over zirconium-doped copper/ZSM-5 catalysts. Appl. Catal. B: Environ., 150–151, 532–543.
  • Chen, H.H., Zhang, H.P., and Yan, Y. 2014. Fabrication of porous copper/manganese binary oxides modified ZSM-5 membrane catalyst and potential application in the removal of VOCs. Chem. Eng. J., 254, 133–142.
  • Delimaris, D., and Ioannides, T. 2009. VOC oxidation over CuO-CeO2 catalysts prepared by a combustion method. Appl. Catal. B: Environ., 89, 295–302.
  • Deng, Q.F., Ren, T.Z., Agula, B., Liu, Y.P., and Yuan, Z.Y. 2014. Mesoporous CexZr1-xO2 solid solutions supported CuO nanocatalysts for toluene total oxidation. J. Ind. Eng. Chem., 20, 3303–3312.
  • Dou, B.J., Hu, Q., Li, J.J., Qiao, S.Z., and Hao, Z.P. 2011. Adsorption performance of VOCs in ordered mesoporous silicas with different pore structures and surface chemistry. J. Hazard. Mater., 186, 1615–1624.
  • Ge, T.G., Hua, Z.L., He, X.Y., Zhu, Y., Ren, W.C., Chen, L.S., Zhang, L.X., Chen, H.G., Liu, C.C., Yao, H.L., and Shi, J.L. 2015. One-pot synthesis of hierarchically structured ZSM-5 zeolites using single micropore-template. Chin. J. Catal, 36, 866–873.
  • Gutiérrez-Ortiz, J.I., Rivas, B.D., López-Fonseca, R., and Gonzālez-Velasco, J.R. 2006. Catalytic purification of waste gases containing VOC mixtures with Ce/Zr solid solutions. Appl. Catal. B: Environ., 65, 191–200.
  • He, C., Li, P., Cheng, J., Hao, Z.P., and Xu, Z.P. 2010. A comprehensive study of deep catalytic oxidation of benzene, toluene, ethyl acetate, and their mixtures over Pd/ZSM-5 catalyst: mutual effects and kinetics. Water Air Soil Pollut., 209, 365–376.
  • He, C., Xu, B.T., Shi, J.W., Qiao, N.L., Hao, Z.P., and Zhao, J.L. 2015a. Catalytic destruction of chlorobenzene over mesoporous ACeOx (A = Co, Cu, Fe, Mn, or Zr) composites prepared by inorganic metal precursor spontaneous precipitation. Fuel Process. Tech., 130, 179–187.
  • He, C., Yu, Y.K., Shi, J.W., Shen, Q., Chen, J.S., and Liu, H.X. 2015b. Mesostructured Cu–mn–Ce–O composites with homogeneous bulk composition for chlorobenzene removal: Catalytic performance and microactivation course. Mater. Chem. Phys., 157, 87–100.
  • He, C., Yu, Y.K., Yue, L., Qiao, N.L., Li, J.J., Shen, Q., Yu, W.J., Chen, J.S., and Hao, Z.P. 2014. Low-temperature removal of toluene and propanal over highly active mesoporous CuCeOx catalysts synthesized via a simple self-precipitation protocol. Appl. Catal. B: Environ., 147, 156–166.
  • Hu, C.Q., Zhu, Q.S., and Jiang, Z. 2009. Nanosized CuO–zrxCe1−xOy aerogel catalysts prepared by ethanol supercritical drying for catalytic deep oxidation of benzene. Powder Tech., 194, 109–114.
  • Jia, A.P., Hu, G.S., Meng, L., Xie, Y.L., Lu, J.Q., and Luo, M.F. 2012. CO oxidation over CuO/Ce1−xCuxO2−δ and Ce1−xCuxO2−δ catalysts: synergetic effects and kinetic study. J. Catal, 289, 199–209.
  • Kuo, C.P., Liao, H.T., Chou, C.C.K., and Wu, C.F. 2014. Source apportionment of particulate matter and selected volatile organic compounds with multiple time resolution data. Sci. Total. Environ., 472, 880–887.
  • Li, S.M., Hao, Q.L., Zhao, R.Z., Liu, D.L., Duan, H.Z., and Dou, B.J. 2016. Highly efficient catalytic removal of ethyl acetate over Ce/Zr promoted copper/ZSM-5 catalysts. Chem. Eng. J., 285, 536–543.
  • Lin, L.Y. and Bai, H.L. 2016. Salt-induced formation of hollow and mesoporous CoOx/SiO2 spheres and their catalytic behavior in toluene oxidation. RSC Adv, 6, 24304–24313.
  • Lu, H.F., Kong, X.X., Huang, H.F., Zhou, Y., and Chen, Y.F. 2015. Cu–mn–ce ternary mixed-oxide catalysts for catalytic combustion of toluene. J. Environ. Sci., 32, 102–107.
  • Luo, J.J., Xua, H.Y., Liu, Y.F., Chu, W., Jiang, C.F., and Zhao, X.S. 2012. A facile approach for the preparation of biomorphic CuO-ZrO2 catalyst for catalytic combustion of methane. Appl. Catal. A: Gen., 423–424, 121–129.
  • Luo, M.F., Ma, J.M., Lu, J.Q., Song, Y.P., and Wang, Y.J. 2007. High-surface area CuO–ceO2 catalysts prepared by a surfactant-templated method for low-temperature CO oxidation. J. Catal, 246, 52–59.
  • Luo, Y.J., Qian, Q.R., and Chen, Q.H. 2015. On the promoting effect of the addition of CexZr1-xO2 to palladium based alumina catalysts for methanol deep oxidation. Mater. Res. Bull., 36, 866–873.
  • Moretti, E., Lenarda, M., Riello, P., Storaro, L., Talon, A., and Frattini, R. 2013. Influence of synthesis parameters on the performance of CeO2-CuO and CeO2-ZrO2-CuO systems in the catalytic oxidation of CO in excess of hydrogen. Appl. Catal. B: Environ., 129, 556–565.
  • Moretti, E., Molina, A.I., Sponchia, G., Talon, A., Frattini, R., Rodriguez-Castellon, E., and Storaro, L. 2017. Low-temperature carbon monoxide oxidation over zirconia-supported CuO-CeO2 catalysts: effect of zirconia support properties. Appl. Surf. Sci., 403, 612–622.
  • Riva, B.D., Pez-Fonseca, R.L., Sampedro, C., and Gutiérrez-Ortiz, J.I. 2009. Catalytic behaviour of thermally aged Ce/Zr mixed oxides for the purification of chlorinated VOC-containing gas streams. Appl. Catal. B: Environ., 90, 545–555.
  • Tang, W.X., Li, W.H., Shan, X., Wu, X.F., and Chen, Y.F. 2015a. Template-free synthesis of hierarchical layer-stacking CeO2 nanostructure with enhanced catalytic oxidation activity. Mater. Lett., 140, 95–98.
  • Tang, W.X., Wu, X.F., Liu, G., Li, S.D., Li, D.Y., Li, W.H., and Chen, Y.F. 2015b. Preparation of hierarchical layer-stacking Mn-Ce composite oxide for catalytic total oxidation of VOCs. J. Rare Earth, 33, 62–69.
  • Tang, X.L., Zhang, B.C., Li, Y., Xu, Y.D., Xin, Q., and Shen, W.J. 2004. Carbon monoxide oxidation over CuO/CeO2 catalysts. Catal. Today, 93–95, 191–198.
  • Wang, J., Yunus, R., Li, J., Li, P., Zhang, P., and Kim, J. 2015a. In situ synthesis of manganeseoxides on polyester fiber for formaldehyde decomposition at room temperature. Appl. Surf. Sci., 357, 787–794.
  • Wang, Z., Qu, Z.P., and Fan, R. 2015b. The Al promotional effect for Ce0.4Zr0.6O2 mixed oxides in selective catalytic oxidation of ammonia to nitrogen. Sep. Purif. Tech., 147, 24–31.
  • Zhang, L.F., He, Y.C., Yang, X.J., Yuan, H., Du, Z.P., and Wu, Y.X. 2015a. Oxidative carbonylation of phenol to diphenyl carbonate by Pd/MO-MnFe2O4 magnetic catalyst. Chem. Eng. J., 278, 129–133.
  • Zhang, Q.L., Xu, L.S., Ning, P., Gu, J.J., and Guan, Q.Q. 2014. Surface characterization studies of CuO-CeO2-ZrO2 catalysts for selective catalytic reduction of NO with NH3. Appl. Surf. Sci., 317, 955–961.
  • Zhang, Z.X., Jiang, Z., and Shangguan, W.F. 2015b. Low-temperature catalysis for VOCs removal in technology and application: a state-of-the-art review. Catal. Today, 264, 270–278.
  • Zhou, G.L., Lan, H., Gao, T.T., and Xie, H.M. 2014. Influence of Ce/Cu ratio on the performance of ordered mesoporous CeCu composite oxide catalysts. Chem. Eng. J., 246, 53–63.
  • Zou, Z.Q., Meng, M., Zha, Y.Q., Zou, Z.Q., Meng, M., and Zha, Y.Q. 2009. The effect of dopant Cu, Fe, Ni or La on the structures and properties of mesoporous Co-Ce-O compound catalysts. J. Alloy. Compd., 470, 96–106.

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