Shape Effect of MnOx-Decorated CeO2 Catalyst in Diesel Soot Oxidation

A series of MnOx-decorated CeO2 MnCeO) catalysts with different morphologies have been prepared by the shape-controlled synthesis of single-crystalline CeO2, such as nanorod, nanoparticle, and nanocube, by a hydrothermal method followed by the deposition of MnOx phase by a simple impregnation method. Their shape-dependent physicochemical properties were investigated by means of XRD, BET, UVvis, HRTEM, XPS, TPR and oxygen storage/release properties measurements. The MnOx/CeO2 nanorod MnCeO- NR) showed prominent carbon soot combustion activity at lower temperature under tight contact mode with a T-50 temperature of 317 degrees C, which is attributed to larger surface area and higher oxygen release rate, as compared with particle and cubic catalysts. MnCeO- NR also exhibited higher catalytic activity a shift of T-50 by 127 degrees C) in NO-assisted soot combustion under a loose contact mode. Not only the higher surface area but also the superior NO conversion ability at low temperature as well as greater NO absorption contributes to the improved catalytic activities. The MnCeO- NR further displayed high stability and satisfactory recyclability without significant loss of catalytic activity. The use of cheaper combinations without noble metals makes the MnOx/CeO2 catalyst a promising candidate to satisfy future requirements in industry.