Enhanced soot oxidation activity over CuO/CeO2 mesoporous nanosheets

Developing highly active catalysts for soot elimination has become a research hotspot in environmental catalysis. Herein, CuO/CeO2 mesoporous nanosheets have been synthesized by combining hydrothermal and wet-impregnation methods, aiming to catalyze NOx-assisted soot oxidation. Results indicate that CeO2 mesoporous nanosheets decorated with 7.2 wt% CuO loading showed the best soot oxidation activity, giving a T-m of 494 degrees C and a nearly 100% CO2 selectivity under reaction conditions of NO concentration = 500 ppm, 5.0% O-2/N-2 and GHSV = ca. 11400 h(-1). This superior activity can be associated with the synergistic effect of the following factors: firstly, the sheet-shaped morphology together with high surface area enlarged the contact interface between soot and the catalyst; secondly, the mesoporous channels within nanosheets not only favored the enhanced adsorption and diffusion of gas reactants (NO and O-2), but also enlarged the contact interface between the catalyst and gas reactants (NO and O-2); thirdly, the improved redox properties and abundant defective sites facilitated the enhanced adsorption and activation of oxygen species and also favored the enhanced NO oxidation ability to generate NO2 to take part in soot oxidation, thereby improving soot oxidation activity. Meanwhile, this catalyst also exhibited good stability against structural collapse owing to its highly stable crystal phase and robust morphological structure, demonstrating its potential applications under practical working conditions.