Add to ORKGGold is commonly regarded as the most inert element.1 However, the discovery of the exceptional catalytic properties of gold nanoparticles (NPs) for low temperature CO oxidation2 initiated great interest due to its promising applications and spawned a large number of studies devoted to the understanding of the reaction mechanism.3-6 Nevertheless, no consistent and conclusive picture has arisen.7-1
The influence of the metal cluster size and the identity of the support on the reactivity of gold ba...
Gold has been known as being almost completely inactive as a catalyst. However, it was found recentl...
Several simple gold compounds and their physical mixtures with TiO2 Were tested for low temperature ...
Gold is commonly regarded as the most inert element.1 However, the discovery of the exceptional cata...
The oxidation of CO is a fundamental model reaction in heterogeneous catalysis. This contribution pr...
Highly oxidized gold nanoparticles prepared by RF-discharge under an oxygen atmosphere were studied ...
Gold is considered as noble among other metals because of its resistance to oxidation and corrosion...
textGold has been considered catalytically inert due to its resistance to oxidation and corrosion. H...
The preparation and reactivity of a range of model systems for the low temperature oxidation of CO b...
Small-size (<5 nm) gold nanostructures supported on reducible metal oxides have been widely inves...
Gold nanoparticles (Au NPs) on oxygen-free supports were examined using near ambient pressure X-ray ...
The preparation and reactivity of a range of model systems for the low temperature oxidation of CO b...
Although highly dispersed Au catalysts with Au nanoparticles (NPs) of a few nanometers in diameter a...
Au based catalysts have been extensively studied since Masatake Haruta in Japan discovered that smal...
The intrinsic reactivity of atomically dispersed gold catalysts for low-temperature (L-T) CO oxidati...
The influence of the metal cluster size and the identity of the support on the reactivity of gold ba...
Gold has been known as being almost completely inactive as a catalyst. However, it was found recentl...
Several simple gold compounds and their physical mixtures with TiO2 Were tested for low temperature ...
Gold is commonly regarded as the most inert element.1 However, the discovery of the exceptional cata...
The oxidation of CO is a fundamental model reaction in heterogeneous catalysis. This contribution pr...
Highly oxidized gold nanoparticles prepared by RF-discharge under an oxygen atmosphere were studied ...
Gold is considered as noble among other metals because of its resistance to oxidation and corrosion...
textGold has been considered catalytically inert due to its resistance to oxidation and corrosion. H...
The preparation and reactivity of a range of model systems for the low temperature oxidation of CO b...
Small-size (<5 nm) gold nanostructures supported on reducible metal oxides have been widely inves...
Gold nanoparticles (Au NPs) on oxygen-free supports were examined using near ambient pressure X-ray ...
The preparation and reactivity of a range of model systems for the low temperature oxidation of CO b...
Although highly dispersed Au catalysts with Au nanoparticles (NPs) of a few nanometers in diameter a...
Au based catalysts have been extensively studied since Masatake Haruta in Japan discovered that smal...
The intrinsic reactivity of atomically dispersed gold catalysts for low-temperature (L-T) CO oxidati...
The influence of the metal cluster size and the identity of the support on the reactivity of gold ba...
Gold has been known as being almost completely inactive as a catalyst. However, it was found recentl...
Several simple gold compounds and their physical mixtures with TiO2 Were tested for low temperature ...