Strong Metal-Support Interaction In Pd/Ca2almno5+Delta: Catalytic No Reduction Over Mn-Doped Cao Shell

The strong metal-support interaction (SMSI) prompts the reductive treatment-induced encapsulation of platinum group metal (PGM) nanoparticles by reducible oxide catalyst supports and therefore often leads to negative outcomes, such as a decrease in catalytic activity. Herein, the SMSI effect was found to benefit a model reaction of automotive exhaust gas purification, namely the catalytic reduction of NO with C3H6 and CO over a Pd/Ca(2)AMnO(5+delta). The reductive treatment of Pd/Ca2AlMnO5+delta induced epitaxial growth of the (111) plane of the MnO-CaO solid solution on the (111) plane of the Pd metal core to produce Mn-doped CaO shells. Experimental results and theoretical calculations indicated that the bimetallic oxide surface of the Mn-doped CaO(111) plane exhibited excellent catalytic activity for NO reduction despite the absence of a Pd metal surface. Thus, this study not only demonstrates that transition-metal sites can exhibit high catalytic activity, similar to that of a Pd metal surface, but also provides a design guideline for environmental catalysts.