Article ID Journal Published Year Pages File Type
49383 Catalysis Communications 2015 5 Pages PDF
Abstract

•Gold nanoparticles were introduced by deposition–precipitation on Mn–zeolites.•Manganese exchanged in zeolites promotes the activity of gold-based catalysts.•A reductive treatment of bimetallic catalysts enhances the catalytic activity.•Au/Mn–mordenite catalysts showed the highest activity in CO oxidation.

Active gold catalysts for CO oxidation were obtained by the deposition–precipitation of gold on ZSM-5 and mordenite, both of them ion-exchanged with manganese. A strong promotion of Mn upon the activity of bimetallic Au/Mn catalysts was observed when compared with the monometallic Au–zeolites. In turn, when an in-situ reduction of the bimetallic catalysts was performed, a further increase in activity was observed. Characterizations suggested that smaller gold nanoparticles were stabilized in the bimetallic solids and that the reduction process caused a rearrangement of Au and Mn species on the catalyst surface.

Related Topics
Physical Sciences and Engineering Chemical Engineering Catalysis
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