کد مقاله | کد نشریه | سال انتشار | مقاله انگلیسی | نسخه تمام متن |
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47087 | 46458 | 2010 | 9 صفحه PDF | دانلود رایگان |
Catalytic combustion of volatile organic compounds (VOC) and preferential oxidation of CO (PROX) were investigated over IB metal/ceria catalysts prepared by deposition–precipitation (DP) or coprecipitation (CP). The activity towards the deep oxidation of VOC was in the order: Au/CeO2 ≥ Ag/CeO2 > Cu/CeO2 ≫ CeO2. The same trend was also found in the PROX reaction in terms of total conversion of O2, which includes O2 consumed both for CO and H2 oxidation. A different behaviour was observed in the CO conversion to CO2, that is the desired PROX reaction. For this reaction, in fact, Au and Cu catalysts gave high CO conversions, Au/CeO2 at low temperature (maximum of 84.3% for AuDP at 70 °C) and Cu/CeO2 at higher temperature (maximum of 96.8% for CuCP at 150 °C), whereas Ag catalysts always exhibited very low CO conversions (maximum of 16.7% for AgCP at 80 °C). Both for PROX and VOC combustion the Au sample prepared by DP was more active than the CP one, whereas a reverse behaviour was found on Ag and Cu catalysts.On the basis of characterization data (XRD, H2-TPR, surface area measurements, H2–D2 isotopic exchange, N2O and H2–O2 chemisorption) it was proposed that a higher atomic radius of the IB metal and the presence of smaller crystallites of both IB metal and ceria result in a larger enhancement of mobility/reactivity of surface ceria oxygens, involved in both investigated reactions through a Mars–van Krevelen mechanism. The very low PROX activity of Ag/CeO2 samples was related to the low capacity of silver to activate the CO molecule.
Figure optionsDownload as PowerPoint slideResearch highlights▶ The order of ceria lattice oxygen reactivity is Au/CeO2 ≥ Ag/CeO2 > Cu/CeO2 ≫ CeO2. ▶ The order of VOC combustion activity is Au/CeO2 ≥ Ag/CeO2 > Cu/CeO2 ≫ CeO2. ▶ The smaller are IB metal and ceria clusters, the more active is the catalyst. ▶ Ag/CeO2 is the best system for VOC combustion, Cu/CeO2 for PROX reaction. ▶ Ag/CeO2 has a very low activity for CO oxidation to CO2.
Journal: Applied Catalysis B: Environmental - Volume 101, Issues 1–2, 22 November 2010, Pages 109–117