Add to ORKGWhile nanoparticles are being pursued actively for a number of applications, dispersed atomic species have been explored far less in functional materials architectures, primarily because composites comprising dispersed atoms are challenging to synthesize and difficult to stabilize against sintering or coarsening. Here we show that room temperature oxidation of Au–Sn alloys produces nanostructures whose surface is terminated by a reducible amorphous oxide that contains atomically dispersed Au. Analysis of the oxidation process shows that the dispersal of Au in the oxide can be explained by predominant oxygen anion diffusion and kinetically limitedmetalmass transport, which restrict phase separation due to a preferential oxidation of Sn. Nano...
Low-temperature CO oxidation is important for both fundamental studies and practical applications. S...
The intrinsic reactivity of atomically dispersed gold catalysts for low-temperature (L-T) CO oxidati...
Supported Au-Ni nanocatalysts consisting of Au nanoparticies decorated with Ni/NiO nanostructures we...
While nanoparticles are being pursued actively for a number of applications, dispersed atomic specie...
Gold nanoparticles (Au NPs) on oxygen-free supports were examined using near ambient pressure X-ray ...
The unique properties of gold especially in low temperature CO oxidation have been ascribed to a com...
textGold has been considered catalytically inert due to its resistance to oxidation and corrosion. H...
Supported noble metal nanoparticles (including nanoclusters) are widely used in many industrial cata...
Although highly dispersed Au catalysts with Au nanoparticles (NPs) of a few nanometers in diameter a...
AuSn and AuSn2 thin films (5 nm) were used as precursors during the formation of semiconducting meta...
Elucidating the oxidation mechanism of alloy has significant practical and theoretical impact. The a...
3D nanoporous metals made by alloy corrosion have attracted much attention due to various promising ...
Nanoporous gold (np-Au) is a catalytically highly active material, prepared by selectively dealloyin...
Understanding of the atomic-scale structure is essential for exploiting the unique catalytic propert...
The surface atomic structure of metallic nanoparticles (NPs) plays a key role in shaping their physi...
Low-temperature CO oxidation is important for both fundamental studies and practical applications. S...
The intrinsic reactivity of atomically dispersed gold catalysts for low-temperature (L-T) CO oxidati...
Supported Au-Ni nanocatalysts consisting of Au nanoparticies decorated with Ni/NiO nanostructures we...
While nanoparticles are being pursued actively for a number of applications, dispersed atomic specie...
Gold nanoparticles (Au NPs) on oxygen-free supports were examined using near ambient pressure X-ray ...
The unique properties of gold especially in low temperature CO oxidation have been ascribed to a com...
textGold has been considered catalytically inert due to its resistance to oxidation and corrosion. H...
Supported noble metal nanoparticles (including nanoclusters) are widely used in many industrial cata...
Although highly dispersed Au catalysts with Au nanoparticles (NPs) of a few nanometers in diameter a...
AuSn and AuSn2 thin films (5 nm) were used as precursors during the formation of semiconducting meta...
Elucidating the oxidation mechanism of alloy has significant practical and theoretical impact. The a...
3D nanoporous metals made by alloy corrosion have attracted much attention due to various promising ...
Nanoporous gold (np-Au) is a catalytically highly active material, prepared by selectively dealloyin...
Understanding of the atomic-scale structure is essential for exploiting the unique catalytic propert...
The surface atomic structure of metallic nanoparticles (NPs) plays a key role in shaping their physi...
Low-temperature CO oxidation is important for both fundamental studies and practical applications. S...
The intrinsic reactivity of atomically dispersed gold catalysts for low-temperature (L-T) CO oxidati...
Supported Au-Ni nanocatalysts consisting of Au nanoparticies decorated with Ni/NiO nanostructures we...