K-modified MnO delta catalysts with tunnel structure and layered structure: Facile preparation and catalytic performance for soot combustion

Air pollution from particulate matter produced by incomplete combustion of diesel fuel has become a serious environmental pollution problem, which can be addressed by catalytic combustion. In this work, a series of K-modified MnO delta catalysts with different microstructures were synthesized by the hydrothermal method, and the relationship between structure of the catalysts and their catalytic performance for soot combustion was studied by characterization techniques and density functional theory (DFT) calculations. Results showed that the prepared catalysts had good catalytic performance for soot combustion and could completely oxidize soot at temperatures below 400 ?. The cryptomelane-type K2-xMn8O16 (K-OMS-2) with tunnel structure had excellent NO oxidation capacity and abundance of Mn4+ ions (Mn4+/Mn3+ = 1.24) with good redox ability, and it demonstrated better soot combustion performance than layered birnessite-type K2Mn4O8 (K-OL-1). The T-10, T-50, and T-90 temperatures of K-OMS-2 were 269, 314, and 346 ?, respectively. The K-OMS-2 catalyst also showed excellent stability after five catalytic cycles, with T-10, T-50, and T-90 values holding in the ranges of 270 +/- 2, 316 +/- 2, and 348 +/- 3 ?, respectively.