Effect of Mn or Fe on CrMoOx /TiO2 selective catalytic reduction catalyst

Developing a high-efficiency catalyst with both superior low-temperature activity and good sulfur and water resistance is still challenging for the NH3 selective catalytic reduction (SCR). Herein, a series of Mn- and Fe-doped CrMoOx/TiO2 catalysts were elaborately designed and the Cr3Mo6Mn2/TiO2 catalyst exhibits the best NOx conversion rate, reaching 81. 8 % at 90 ℃ and closing to 100 % at 150 ℃, and the NOx conversion reach ∼71 % at 150 ℃ for 30 h in presence of H2O+SO2. A series of characterization studies revealed that the abundance of Lewis acidic sites on the catalysts and the protective effect of Mo are conducive to the enhancement of SO2+H2O resistance. cr3Mo6Mn2/TiO2 dominates the SCR reaction through the Eley-Rideal (E-R) pathway between adsorbed NH4+/NH3 and gaseous NOx, generating N2 and H2O. This work provides a new strategy for improving the tolerance of chromium-based oxide catalysts to sulfur dioxide and water at low temperatures.