Metallic Ag Confined on SnO 2 Surface for Soot Combustion: the Influence of Ag Distribution and Dispersion on the Reactivity

Abstract To unravel the surface confinement effect of SnO 2 for Ag, and find an effective way to design practical soot combustion catalysts, an XRD extrapolation method has been adopted for the first time to analyze the distribution and dispersion of metallic Ag on SnO 2 surface. Ag addition can generate more surface oxygen vacancies on SnO 2 , thus forming richer amount of surface O 2 − and O 2 2− anions. However, the amount of soot reactive oxygen sites is significantly influenced by the distribution of Ag. It is quantified that 1.86 mmol Ag/100 m 2 SnO 2 surface, which is equal to 5.2 wt% loading, is a threshold value for Ag distribution. Below the threshold, Ag is nearly in amorphous state, and has strong interaction with the SnO 2 support, thus producing more soot reactive surface oxygen sites. Furthermore, the redox property of SnO 2 lattice oxygen is enhanced by Ag addition. Therefore, metallic Ag in nearly amorphous state plays a critical role for the reaction. Ag crystallites formed on the surface above the threshold have negative influence on the activity. The best Ag/SnO 2 catalyst can be fabricated by loading the threshold amount of Ag over SnO 2 surface to get the maximum quantity of amorphous Ag species.