Add to ORKGA flow reactor for the investigation of heterogeneous catalytic reactions on single crystalline metal oxide model catalysts has been designed. It is located in a high pressure cell attached to an UHV analysis chamber where the model catalysts can be prepared and characterized by surface science techniques. It can also be run in a batch modus. After sample transfer the high pressure cell can be completely separated from the UHV chamber and it can be used for oxidation treatments and reaction studies at gas pressures up to 1 bar. A new heating system provides direct heating of the sample by laser light up to 1200 K. Product analysis is done by gas chromatography coupled with mass spectrometry, which allows detection in the ppb range. The sing...
Metal-oxide based catalysts are used for many important synthesis reactions in the chemical industry...
Dehydrogenation of ethylbenzene to styrene is usually run over potassium promoted iron oxide based c...
An Atomic Force Microscope (AFM) has been integrated in a miniature high-pressure flow reactor for i...
A flow reactor for the investigation of heterogeneous catalytic reactions on single crystalline meta...
A flow reactor for the investigation of heterogeneous catalytic reactions on single crystalline meta...
The function of a metal oxide catalyst was investigated by an integrated approach, combining a varie...
Epitaxial model catalyst films of different iron oxide phases and of potassium doped iron oxide were...
In order to study the dehydrogenation of ethylbenzene to styrene, epitaxial iron oxide model catalys...
An in-depth model catalysis study on a complex system is reviewed. Both unpromoted and potassium-pro...
The pressure and materials gap between reactivity studies in UHV and real catalysis can only be over...
I will review a fairly successful attempt to bridge the gaps between surface science studies and rea...
A model catalysis study on a complex system is reviewed, bridging the gaps to real catalysis. Unprom...
Epitaxial films of different iron oxide phases and of potassium iron oxide were grown onto Pt(111) s...
The economically important dehydrogenation of ethylbenzene (EB) to styrene (ST) is run at 870 K over...
Surface science methods originating from analysis of noble metal catalysts are increasingly applied ...
Metal-oxide based catalysts are used for many important synthesis reactions in the chemical industry...
Dehydrogenation of ethylbenzene to styrene is usually run over potassium promoted iron oxide based c...
An Atomic Force Microscope (AFM) has been integrated in a miniature high-pressure flow reactor for i...
A flow reactor for the investigation of heterogeneous catalytic reactions on single crystalline meta...
A flow reactor for the investigation of heterogeneous catalytic reactions on single crystalline meta...
The function of a metal oxide catalyst was investigated by an integrated approach, combining a varie...
Epitaxial model catalyst films of different iron oxide phases and of potassium doped iron oxide were...
In order to study the dehydrogenation of ethylbenzene to styrene, epitaxial iron oxide model catalys...
An in-depth model catalysis study on a complex system is reviewed. Both unpromoted and potassium-pro...
The pressure and materials gap between reactivity studies in UHV and real catalysis can only be over...
I will review a fairly successful attempt to bridge the gaps between surface science studies and rea...
A model catalysis study on a complex system is reviewed, bridging the gaps to real catalysis. Unprom...
Epitaxial films of different iron oxide phases and of potassium iron oxide were grown onto Pt(111) s...
The economically important dehydrogenation of ethylbenzene (EB) to styrene (ST) is run at 870 K over...
Surface science methods originating from analysis of noble metal catalysts are increasingly applied ...
Metal-oxide based catalysts are used for many important synthesis reactions in the chemical industry...
Dehydrogenation of ethylbenzene to styrene is usually run over potassium promoted iron oxide based c...
An Atomic Force Microscope (AFM) has been integrated in a miniature high-pressure flow reactor for i...