Metallic Corner Atoms in Gold Clusters Supported on Rutile Are the Dominant Active Site during Water−Gas Shift Catalysis

Metallic Corner Atoms in Gold Clusters Supported on Rutile Are the Dominant Active Site during Water−Gas Shift Catalysis

Au/TiO2 catalysts used in the water−gas shift (WGS) reaction at 120 °C, 7% CO, 22% H2O, 9% CO2, and 37% H2 had rates up to 0.1 moles of CO converted per mole of Au per second. However, the rate per mole of Au depends strongly on the Au particle size. The use of a nonporous, model support allowed for...

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Veröffentlicht in:Journal of the American Chemical Society 2010-10, Vol.132 (40), p.14018-14020
Hauptverfasser: Williams, W. Damion, Shekhar, Mayank, Lee, Wen-Sheng, Kispersky, Vincent, Delgass, W. Nicholas, Ribeiro, Fabio H, Kim, Seung Min, Stach, Eric A, Miller, Jeffrey T, Allard, Lawrence F
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Sprache:eng
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Zusammenfassung:Au/TiO2 catalysts used in the water−gas shift (WGS) reaction at 120 °C, 7% CO, 22% H2O, 9% CO2, and 37% H2 had rates up to 0.1 moles of CO converted per mole of Au per second. However, the rate per mole of Au depends strongly on the Au particle size. The use of a nonporous, model support allowed for imaging of the active catalyst and a precise determination of the gold size distribution using transmission electron microscopy (TEM) because all the gold is exposed on the surface. A physical model of Au/TiO2 is used to show that corner atoms with fewer than seven neighboring gold atoms are the dominant active sites. The number of corner sites does not vary as particle size increases above 1 nm, giving the surprising result that the rate per gold cluster is independent of size.
ISSN:0002-7863
1520-5126
DOI:10.1021/ja1064262