Performance of CO preferential oxidation of CeO2-NiO nanorod catalyst in H2-rich stream
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Graphical Abstract
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Abstract
A series of nanorod CeO2(x)-NiO composite oxides catalysts with different Ce/Ni molar ratios have been synthesized by hydrothermal method. Their morphology and structure were characterized by N2 sorption-desorption, XRD, TEM, Raman spectra, H2-TPR and XPS. The effects of Ce/Ni molar ratio on the morphology and catalytic activity of CeO2(x)-NiO composite oxides catalysts for CO preferential oxidation (CO PROX) in hydrogen-rich stream were studied. TEM results indicate that nanorod CeO2(x)-NiO composite oxides catalysts with different sizes can be obtained by adjusting Ce/Ni molar ratio. H2-TPR results show that introduction of NiO into CeO2 enhance the redox ability of CeO2(x)-NiO composite oxides catalysts. Raman spectra and XPS results indicate that CeO2(x)-NiO composite oxides catalysts with low nickel content have much more active oxygen species and oxygen vacancies, which are beneficial to improve its catalytic performance. CeO2(0.89)-NiO nanorod catalysts with low nickel content exhibits the highest activity and CO2 selectivity, the CO conversion is 100% and the CO2 selectivity is about 52% in the reaction temperature range of 170-220 ℃ for CO PROX in hydrogen-rich stream.
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