CO oxidation at low temperature on Au/CePO4: Mechanistic aspects

This work reports the synthesis and characterization of a cerium phosphate supported gold catalyst as well as its catalytic activity for the oxidation of CO. A precipitation method in the presence of an organic modifier followed by a hydrothermal treatment was used for the support synthesis, resulting in high surface area nanometric particles. Gold/cerium phosphate catalyst with a 1% (w/w) nominal gold content was characterized using XRF, XRD, N2 adsorption–desorption measurements, TEM and DRIFTS-MS. The catalyst shows good catalytic activity at low temperature. The activity is related to the generation of oxygen vacancies in the support caused by the elimination of structural oxygen. In situ studies revealed that the reaction of the oxygen vacancies with gaseous oxygen resulted in the formation of peroxo species. These species are responsible for the activity detected at room temperature in both the catalyst and the support. Moreover, the presence of carbonate and hydrogen carbonate acting as reaction intermediates have been observed.

Graphical abstractFigure optionsDownload full-size imageDownload as PowerPoint slideHighlights► CePO4 (rhabdophane structure) is used as support of gold catalysts for CO oxidation. ► Dehydration of the support during activation induces oxygen vacancies generation. ► Oxygen vacancies are able to react with gaseous oxygen to give peroxide species. ► Peroxides oxidize CO at low temperature giving carbonates that poison surface sites. ► By rising temperature, when gold is present, carbonates decompose and activity rises.