Preferential oxidation of CO in excess H_2 over the CeO_2/CuO catalyst: Effect of initial support 被引量：2

Preferential oxidation of CO in excess H_2 over the CeO_2/CuO catalyst: Effect of initial support

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摘要 Three series of CeO2/CuO samples were prepared by impregnation method and characterized by XRD, N2 adsorption-desorption, temperatureprogrammed reduction （TPR）, XPS and TEM techniques. In comparison with the samples prepared with CuO as initial support, the samples with Cu（OH）2 as initial support have higher reducibilities and smaller relative TPR peak areas, and also larger specific surface areas at calcina- tion temperatures of 400 ℃--600 ℃. As a result, Cu（OH）2 is better than CuO as initial support for preferential oxidation of CO in excess H2 （CO-PROX）. The best catalytic performance was achieved on the sample calcined at 600 ℃ and with an atomic ratio of Ce/Cu at 40%. XPS analyses indicate that more interface linkages Ce-O-Cu could be formed when it was calcined at 600 ℃. And the atomic ratio of Ce/Cu at 40% led to a proper reducibility for the sample as illustrated by the TPR measurements. Three series of CeO2/CuO samples were prepared by impregnation method and characterized by XRD, N2 adsorption-desorption, temperatureprogrammed reduction （TPR）, XPS and TEM techniques. In comparison with the samples prepared with CuO as initial support, the samples with Cu（OH）2 as initial support have higher reducibilities and smaller relative TPR peak areas, and also larger specific surface areas at calcina- tion temperatures of 400 ℃--600 ℃. As a result, Cu（OH）2 is better than CuO as initial support for preferential oxidation of CO in excess H2 （CO-PROX）. The best catalytic performance was achieved on the sample calcined at 600 ℃ and with an atomic ratio of Ce/Cu at 40%. XPS analyses indicate that more interface linkages Ce-O-Cu could be formed when it was calcined at 600 ℃. And the atomic ratio of Ce/Cu at 40% led to a proper reducibility for the sample as illustrated by the TPR measurements.

作者 Zhiming Gao Yuanyuan Gong Qiang Zhang Hao Deng Yong Yue

机构地区 School of Chemistry Research Department of Environmental Technology

出处《Journal of Energy Chemistry》 SCIE EI CAS CSCD 2014年第4期475-482,共8页 能源化学（英文版）

基金 supported by CNPC Project

关键词 preterential oxiclation CO excess H2 CeO2/CuO catalyst TPR XPS interlace preterential oxiclation CO excess H2 CeO2/CuO catalyst TPR XPS interlace

分类号 O643.36 [理学—物理化学] TQ426 [化学工程]

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Journal of Energy Chemistry

2014年第4期

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