Abstract
Ce-MnO(x) composite oxide catalysts with different proportions were prepared using the coprecipitation method, and the CO-removal ability of the catalysts with the tested temperature range of 60-140 °C was investigated systematically. The effect of Ce and Mn ratios on the catalytic oxidation performance of CO was investigated using X-ray diffraction (XRD), X-ray energy dispersive spectroscopy (EDS), scanning electron microscopy (SEM), H(2) temperature programmed reduction (H(2)-TPR), CO-temperature programmed desorption (CO-TPD), and in situ infrared spectra. The experimental results reveal that under the same test conditions, the CO conversion rate of pure Mn(3)O(4) reaches 95.4% at 170 °C. Additionally, at 140 °C, the Ce-MnO(x) series composite oxide catalyst converts CO at a rate of over 96%, outperforming single-phase Mn(3)O(4) in terms of catalytic performance. With the decrement in Ce content, the performance of Ce-MnO(x) series composite oxide catalysts first increase and then decrease. The Ce MnO(x) catalyst behaves best when Ce:Mn = 1:1, with a CO conversion rate of 99.96% at 140 °C and 91.98% at 100 °C.