Downloads provided by UsageCountsHydrogen-reduced Cu/ZnO composite as efficient reusable catalyst for diesel particulate matter oxidation
Copyright policy ) Grisel Corro; Surinam Cebada; Umapada Pal; Jose Luis García Fierro; Josefina Alvarado;
Hydrogen-reduced Cu/ZnO composite as efficient reusable catalyst for diesel particulate matter oxidation
Hydrogen-reduced copper-loaded ZnO (Cu/ZnO) showed a strong diesel particulate matter oxidation activity at temperature as low as 150 °C. Cu/ZnO catalyst with 5% nominal Cu content was tested for the oxidation of diesel particulate matter under air flow between 25 and 800 °C. The high catalytic performance of reduced 5%Cu/ZnO even after its use in diesel particulate matter oxidation has been assigned to the presence of Cu1+ ions at its surface, determined by Auger electronic spectroscopy. The high stability of Cu1+ could be assigned to the isoelectronic interaction of Cu1+ (3d10) with Zn2+ (3d10) at the Cu2O–ZnO interface. Results presented in this work indicate that the composite catalyst can be considered as part of an exhaust catalytic system, for abating diesel particulate matter emission at low temperature.
The authors acknowledge VIEP & DITCo, BUAP (Grants # VIEP 45/NAT/2014, and INOVACION #3 and #19), and CONACyT, Mexico (Grant # CB-2010/151767) for their financial supports.
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Cold engine diesel emissions, Diesel particulate matter oxidation, Cu1+, Cu/ZnO composite catalyst
Cold engine diesel emissions, Diesel particulate matter oxidation, Cu1+, Cu/ZnO composite catalyst
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