Add to ORKGWe review here our studies of the reactivity and sintering kinetics of model catalysts consisting of gold nanoparticles dispersed on TiO2(110). First, the nucleation and growth of vapor-deposited gold on this surface was experimentally examined using x-ray photoelectron spectroscopy and low energy ion scattering. Gold initially grows as two-dimensional islands up to a critical coverage, hcr, after which 3D gold nanoparticles grow. The results at different temperatures are fitted well with a kinetic model, which includes various energetic parameters for Au adatom migration. Oxygen was dosed onto the resulting gold nanoparticles using a hot filament technique. The desorption energy of Oa was examined using temperature programmed desorption (T...
This work begins with a brief overview of heterogeneous, characterization techniques, and current hy...
The influence of temperature on the BET surface area, crystallinity, and anatase/rutile phase transf...
The water-gas shift (WGS) reaction rate per total mole of Au under 7% CO, 8.5% CO2, 22% H2O, and 37%...
International audienceThe origin of the catalytic activity of gold nanoparticles remains debated des...
International audienceThe catalytic activity of oxide-supported gold nanoparticles depends crucially...
International audienceThe relationship between the catalytic activity and the size was studied in op...
A series of Au/TiO<sub>2</sub> catalysts for CO oxidation with same Au loading but different Au nano...
International audienceIt is well known that gold nanoparticles supported on TiO2 act as a catalyst f...
textThe chemical nature of gold has been determined to be much richer than previously thought. Recen...
Au nanoparticles with different loadings were prepared on anatase TiO2 nanocrystals with various mor...
Gold nanoparticles dispersed on metal-oxide surfaces have attracted extensive interests due to their...
Au based catalysts have been extensively studied since Masatake Haruta in Japan discovered that smal...
Au nanoparticles represent the most remarkable example of a size effect in heterogeneous catalysis. ...
In this paper, we study the thermal activation of CO2 on the surface of small Au nanoparticles suppo...
Journal ArticleRecent experiments on CO oxidation reaction using seven-atom Au clusters deposited on...
This work begins with a brief overview of heterogeneous, characterization techniques, and current hy...
The influence of temperature on the BET surface area, crystallinity, and anatase/rutile phase transf...
The water-gas shift (WGS) reaction rate per total mole of Au under 7% CO, 8.5% CO2, 22% H2O, and 37%...
International audienceThe origin of the catalytic activity of gold nanoparticles remains debated des...
International audienceThe catalytic activity of oxide-supported gold nanoparticles depends crucially...
International audienceThe relationship between the catalytic activity and the size was studied in op...
A series of Au/TiO<sub>2</sub> catalysts for CO oxidation with same Au loading but different Au nano...
International audienceIt is well known that gold nanoparticles supported on TiO2 act as a catalyst f...
textThe chemical nature of gold has been determined to be much richer than previously thought. Recen...
Au nanoparticles with different loadings were prepared on anatase TiO2 nanocrystals with various mor...
Gold nanoparticles dispersed on metal-oxide surfaces have attracted extensive interests due to their...
Au based catalysts have been extensively studied since Masatake Haruta in Japan discovered that smal...
Au nanoparticles represent the most remarkable example of a size effect in heterogeneous catalysis. ...
In this paper, we study the thermal activation of CO2 on the surface of small Au nanoparticles suppo...
Journal ArticleRecent experiments on CO oxidation reaction using seven-atom Au clusters deposited on...
This work begins with a brief overview of heterogeneous, characterization techniques, and current hy...
The influence of temperature on the BET surface area, crystallinity, and anatase/rutile phase transf...
The water-gas shift (WGS) reaction rate per total mole of Au under 7% CO, 8.5% CO2, 22% H2O, and 37%...