In this chapter surface-sensitive X-ray diffraction is introduced as an important crystallographic tool for the investigation of surfaces and nanostructures under high pressure reaction conditions and elevated temperatures which are relevant for industrial catalysis. After the introduction surface-sensitive X-ray diffraction methods are briefly explained and specialized instrumentation developed for the in situ investigation of surfaces and nanostructures across the pressure gap is presented combined with simultaneous measurement of the concentrations of reactants and products. In the following an overview of the experimental results is given: First the (near)-ambient pressure oxidation of 3d, 4d, and 5d transition metals is discussed which...
In this thesis we have performed a systematic atomic scale characterization of model catalysts under...
The rational design of new heterogeneous catalysts for clean chemical technologies can be accelerate...
The rational design of new heterogeneous catalysts for clean chemical technologies can be accelerate...
In this chapter surface-sensitive X-ray diffraction is introduced as an important crystallographic t...
International audienceA new experimental setup has been developed to enable in situ studies of catal...
International audienceA reactor cell for in situ studies of individual catalyst nanoparticles or sur...
International audienceA reactor cell for in situ studies of individual catalyst nanoparticles or sur...
A reactor cell for in situ studies of individual catalyst nanoparticles or surfaces by nano-focused ...
Understanding the interaction between surfaces and their surroundings is crucial in many materials-s...
Understanding the interaction between surfaces and their surroundings is crucial in many materials-s...
\u3cp\u3eA reactor cell for in situ studies of individual catalyst nanoparticles or surfaces by nano...
Catalysts are materials that accelerate the rate of a desired chemical reaction. As such, they const...
This thesis describes the development of a combined high-pressure/ultrahigh-vacuum flow reactor for ...
Catalysts are materials that accelerate the rate of a desired chemical reaction. As such, theyconsti...
ConspectusMotivated mainly by catalysis, gas-surface interaction between single crystal surfaces and...
In this thesis we have performed a systematic atomic scale characterization of model catalysts under...
The rational design of new heterogeneous catalysts for clean chemical technologies can be accelerate...
The rational design of new heterogeneous catalysts for clean chemical technologies can be accelerate...
In this chapter surface-sensitive X-ray diffraction is introduced as an important crystallographic t...
International audienceA new experimental setup has been developed to enable in situ studies of catal...
International audienceA reactor cell for in situ studies of individual catalyst nanoparticles or sur...
International audienceA reactor cell for in situ studies of individual catalyst nanoparticles or sur...
A reactor cell for in situ studies of individual catalyst nanoparticles or surfaces by nano-focused ...
Understanding the interaction between surfaces and their surroundings is crucial in many materials-s...
Understanding the interaction between surfaces and their surroundings is crucial in many materials-s...
\u3cp\u3eA reactor cell for in situ studies of individual catalyst nanoparticles or surfaces by nano...
Catalysts are materials that accelerate the rate of a desired chemical reaction. As such, they const...
This thesis describes the development of a combined high-pressure/ultrahigh-vacuum flow reactor for ...
Catalysts are materials that accelerate the rate of a desired chemical reaction. As such, theyconsti...
ConspectusMotivated mainly by catalysis, gas-surface interaction between single crystal surfaces and...
In this thesis we have performed a systematic atomic scale characterization of model catalysts under...
The rational design of new heterogeneous catalysts for clean chemical technologies can be accelerate...
The rational design of new heterogeneous catalysts for clean chemical technologies can be accelerate...