BIOMAT Database Logo BIOMAT Database Logo

Activation of Au/TiO2 catalyst for CO oxidation. 2005

Jeff H Yang, and Juan D Henao, and Mpfunzeni C Raphulu, and Yingmin Wang, and Tiziana Caputo, and A J Groszek, and Mayfair C Kung, and Michael S Scurrell, and Jeffrey T Miller, and Harold H Kung
Department of Chemical and Biological Engineering and Department of Materials Science and Engineering, Northwestern University, Evanston, Illinois 60208-3120, USA.

Changes in a Au/TiO(2) catalyst during the activation process from an as-prepared state, consisting of supported AuO(x)(OH)(4-2x)(-) species, were monitored with X-ray absorption spectroscopy and FTIR spectroscopy, complemented with XPS, microcalorimetry, and TEM characterization. When the catalyst was activated with H(2) pulses at 298 K, there was an induction period when little changes were detected. This was followed by a period of increasing rate of reduction of Au(3+) to Au(0), before the reduction rate decreased until the sample was fully reduced. A similar trend in the activation process was observed if CO pulses at 273 K or a steady flow of CO at about 240 K was used to activate the sample. With both activation procedures, the CO oxidation activity of the catalyst at 195 K increased with the degree of reduction up to 70% reduction, and decreased slightly beyond 80% reduction. The results were consistent with metallic Au being necessary for catalytic activity.

UI MeSH Term Description Entries

Related Publications

Jeff H Yang, and Juan D Henao, and Mpfunzeni C Raphulu, and Yingmin Wang, and Tiziana Caputo, and A J Groszek, and Mayfair C Kung, and Michael S Scurrell, and Jeffrey T Miller, and Harold H Kung
The Effect of Hydrogenated TiO2 to the Au/TiO2 Catalyst in Catalyzing CO Oxidation.
March 2021, Langmuir : the ACS journal of surfaces and colloids,
Jeff H Yang, and Juan D Henao, and Mpfunzeni C Raphulu, and Yingmin Wang, and Tiziana Caputo, and A J Groszek, and Mayfair C Kung, and Michael S Scurrell, and Jeffrey T Miller, and Harold H Kung
Active oxygen on a Au/TiO2 catalyst: formation, stability, and CO oxidation activity.
October 2011, Angewandte Chemie (International ed. in English),
Jeff H Yang, and Juan D Henao, and Mpfunzeni C Raphulu, and Yingmin Wang, and Tiziana Caputo, and A J Groszek, and Mayfair C Kung, and Michael S Scurrell, and Jeffrey T Miller, and Harold H Kung
Unexpected promotion of Au/TiO2 by nitrate for CO oxidation.
May 2005, Chemical communications (Cambridge, England),
Jeff H Yang, and Juan D Henao, and Mpfunzeni C Raphulu, and Yingmin Wang, and Tiziana Caputo, and A J Groszek, and Mayfair C Kung, and Michael S Scurrell, and Jeffrey T Miller, and Harold H Kung
Zn Modification of Pd/TiO2/Ti Catalyst for CO Oxidation.
January 2023, Materials (Basel, Switzerland),
Jeff H Yang, and Juan D Henao, and Mpfunzeni C Raphulu, and Yingmin Wang, and Tiziana Caputo, and A J Groszek, and Mayfair C Kung, and Michael S Scurrell, and Jeffrey T Miller, and Harold H Kung
Biphasic Pd-Au alloy catalyst for low-temperature CO oxidation.
August 2010, Journal of the American Chemical Society,
Jeff H Yang, and Juan D Henao, and Mpfunzeni C Raphulu, and Yingmin Wang, and Tiziana Caputo, and A J Groszek, and Mayfair C Kung, and Michael S Scurrell, and Jeffrey T Miller, and Harold H Kung
Influence of the Time Scale on the Reaction Mechanism of CO Oxidation over a Au/TiO2 Catalyst.
July 2023, Angewandte Chemie (International ed. in English),
Jeff H Yang, and Juan D Henao, and Mpfunzeni C Raphulu, and Yingmin Wang, and Tiziana Caputo, and A J Groszek, and Mayfair C Kung, and Michael S Scurrell, and Jeffrey T Miller, and Harold H Kung
Effect of TiO2 Calcination Pretreatment on the Performance of Pt/TiO2 Catalyst for CO Oxidation.
June 2022, Molecules (Basel, Switzerland),
Jeff H Yang, and Juan D Henao, and Mpfunzeni C Raphulu, and Yingmin Wang, and Tiziana Caputo, and A J Groszek, and Mayfair C Kung, and Michael S Scurrell, and Jeffrey T Miller, and Harold H Kung
Remarkable nanosize effect of zirconia in Au/ZrO2 catalyst for CO oxidation.
May 2005, The journal of physical chemistry. B,
Jeff H Yang, and Juan D Henao, and Mpfunzeni C Raphulu, and Yingmin Wang, and Tiziana Caputo, and A J Groszek, and Mayfair C Kung, and Michael S Scurrell, and Jeffrey T Miller, and Harold H Kung
Inhibition at perimeter sites of Au/TiO2 oxidation catalyst by reactant oxygen.
August 2012, Journal of the American Chemical Society,
Jeff H Yang, and Juan D Henao, and Mpfunzeni C Raphulu, and Yingmin Wang, and Tiziana Caputo, and A J Groszek, and Mayfair C Kung, and Michael S Scurrell, and Jeffrey T Miller, and Harold H Kung
Dual Activation of Molecular Oxygen and Surface Lattice Oxygen in Single Atom Cu1 /TiO2 Catalyst for CO Oxidation.
November 2022, Angewandte Chemie (International ed. in English),
Copied contents to your clipboard!