In this paper, black TiO2 without adding active components was developed for NH3-SCR-DeNO(x). The catalytic activity tests showed that the NO removal efficiency of black TiO2 was always greater than 90% at 330-390 degrees C, which almost reached that of the commercial NH3-SCR-DeNO(x) catalyst. XRD, UV-vis, TG, EPR, XPS, H-2-TPR, DFT and NH3-TPD analyses were carried out to study the structure-effectiveness relationship. We found that a large number of oxygen vacancies were formed over the black TiO2 surface. It was not only promoted the adsorption of NH(3)via direct (oxygen vacancies as Lewis acid sites for NH3 adsorption) and indirect (oxygen vacancies promote the formation of surface hydroxyl groups, which are BrOnsted acid sites for NH3 adsorption) forms, but also improved the redox properties by promoting the reduction of Ti4+ to Ti3+. These changes lead to the superior catalytic activity of black TiO2 for NH3-SCR-DeNO(x). Additionally, an in situ DRIFT study demonstrated that the NH3-SCR-DeNO(x) reaction over black TiO2 occurred via the Eley-Rideal (E-R) mechanism. Finally, the catalytic stability and resistance to H2O and SO2 of the black TiO2 catalyst were studied, and it showed good performances. This study offered new and important insights into the understanding of the role of oxygen vacancies in determining the physical and chemical properties of catalysts.

• 出版日期2018-9-21
• 单位南京理工大学