Add to ORKGThe study of gold/oxide interfaces has increased recently due to its new found catalytic properties. Those properties are strongly dependent on the structure and morphology of the overlayer and on its interaction with the substrate [1, 2]. The tendency of Au to nucleate at oxygen vacancies [3] drives the growth of Au and favors charge transfer between the overlayer and the substrate. The morphology of the substrate surface and the fi rst stage of the Au growth thus result fundamental in determining the properties of gold/oxide systems. We present here a detailed characterization of the Au/NiO interface from a structural and morphological point of view by means of XPD, LEED and STM/AFM. We also investigated the chemical reactions at interfac...
Recent significant strides have been made on the development of available techniques that can be use...
This thesis investigates the interfacial chemistry and lattice structure via transmission electron m...
The gold(110) single crystal exhibits a (1 × 2) surface structure when clean, but when immersed in 0...
The study of gold/oxide interfaces has increased recently due to its new found catalytic properties....
The interest on metal-oxide interfaces is stimulated stimulated by the applications in many fields, ...
Many researchers have investigated the catalytic performance ofgold nanoparticles (GNPs) supported o...
An Au/CeO2 model catalyst was prepared by deposition–precipitation, with the aim of obtaining a samp...
Gold nanoparticles on transition metal oxides were synthesized by two different methods precipitati...
Inducing the adsorption of oxygen on gold surfaces transforms the inert metal into a surprisingly re...
Au-based materials are remarkably efficient catalysts in the domain of partial oxidation reactions. ...
With the increase in demand for renewable energy, understanding chemical processes is essential for ...
We propose a technique to estimate the concentration of reactive oxidation sites on an otherwise non...
The surface of a gold foil under ozone oxidation was examined by near ambient pressure X-ray photoel...
An Au/CeO<sub>2</sub> model catalyst was prepared by deposition–precipitation, with the aim of obtai...
Gold nanoparticles on transition-metal oxides were synthesized by two different methods: precipitati...
Recent significant strides have been made on the development of available techniques that can be use...
This thesis investigates the interfacial chemistry and lattice structure via transmission electron m...
The gold(110) single crystal exhibits a (1 × 2) surface structure when clean, but when immersed in 0...
The study of gold/oxide interfaces has increased recently due to its new found catalytic properties....
The interest on metal-oxide interfaces is stimulated stimulated by the applications in many fields, ...
Many researchers have investigated the catalytic performance ofgold nanoparticles (GNPs) supported o...
An Au/CeO2 model catalyst was prepared by deposition–precipitation, with the aim of obtaining a samp...
Gold nanoparticles on transition metal oxides were synthesized by two different methods precipitati...
Inducing the adsorption of oxygen on gold surfaces transforms the inert metal into a surprisingly re...
Au-based materials are remarkably efficient catalysts in the domain of partial oxidation reactions. ...
With the increase in demand for renewable energy, understanding chemical processes is essential for ...
We propose a technique to estimate the concentration of reactive oxidation sites on an otherwise non...
The surface of a gold foil under ozone oxidation was examined by near ambient pressure X-ray photoel...
An Au/CeO<sub>2</sub> model catalyst was prepared by deposition–precipitation, with the aim of obtai...
Gold nanoparticles on transition-metal oxides were synthesized by two different methods: precipitati...
Recent significant strides have been made on the development of available techniques that can be use...
This thesis investigates the interfacial chemistry and lattice structure via transmission electron m...
The gold(110) single crystal exhibits a (1 × 2) surface structure when clean, but when immersed in 0...