Abstract. CO oxidation on a clean Pt(111) single crystal and thin iron oxide films grown on Pt(111) was studied at different CO:O2 ratios (between 1:5 and 5:1) and partial pressures up to 60 mbar at 400 – 450 K. Structural characterization of the model catalysts was performed by scanning tunneling microscopy, low energy electron diffraction, Auger electron spectroscopy and temperature programmed desorption. It is found that monolayer FeO(111) films grown on Pt(111) are much more active than clean Pt(111) and nm-thick Fe3O4(111) films at all reaction conditions studied. Post-characterization of the catalysts revealed that at CO:O2>1 the FeO(111) film dewets the Pt surface with time, ultimately resulting in highly dispersed iron oxide part...
The reaction of CO and O2 with submonolayer and multilayer CoOx films on Pt(111), to produce CO2, wa...
Ultrathin manganese oxide films grown on Pt(111) were examined in the low temperature CO oxidation r...
The reaction of CO and O2 with submonolayer and multilayer CoOx films on Pt(111), to produce CO2, wa...
Ultrathin (monolayer) films of transition metal oxides grown on metal substrates have recently recei...
Ultrathin (monolayer) films of transition metal oxides grown on metal substrates have recently recei...
Ultrathin (“monolayer”) films of transition metal oxides grown on metal substrates have recently rec...
Ultrathin (“monolayer”) films of transition metal oxides grown on metal substrates have recently rec...
Ultrathin (monolayer) films of transition metal oxides grown on metal substrates have recently recei...
FeO(1 1 1) films grown on a Au(1 1 1) substrate were studied in the low temperature CO oxidation rea...
We provide experimental evidence that the low temperature CO oxidation reaction on an ultrathin FeO(...
FeO(1 1 1) films grown on a Au(1 1 1) substrate were studied in the low temperature CO oxidation rea...
Well-ordered ultrathin ZnO(0 0 0 1) films were grown on Pt(1 1 1) in a layer-by-layer mode. The reac...
We studied CO oxidation on FeO(1 1 1) films on Pt(1 1 1) at submonolayer oxide coverages at ultrahig...
Ultrathin manganese oxide films grown on Pt(111) were examined in the low temperature CO oxidation r...
Adsorption of CO and O2 on Pd particles deposited on a well-ordered Fe3O4(111) film was studied by t...
The reaction of CO and O2 with submonolayer and multilayer CoOx films on Pt(111), to produce CO2, wa...
Ultrathin manganese oxide films grown on Pt(111) were examined in the low temperature CO oxidation r...
The reaction of CO and O2 with submonolayer and multilayer CoOx films on Pt(111), to produce CO2, wa...
Ultrathin (monolayer) films of transition metal oxides grown on metal substrates have recently recei...
Ultrathin (monolayer) films of transition metal oxides grown on metal substrates have recently recei...
Ultrathin (“monolayer”) films of transition metal oxides grown on metal substrates have recently rec...
Ultrathin (“monolayer”) films of transition metal oxides grown on metal substrates have recently rec...
Ultrathin (monolayer) films of transition metal oxides grown on metal substrates have recently recei...
FeO(1 1 1) films grown on a Au(1 1 1) substrate were studied in the low temperature CO oxidation rea...
We provide experimental evidence that the low temperature CO oxidation reaction on an ultrathin FeO(...
FeO(1 1 1) films grown on a Au(1 1 1) substrate were studied in the low temperature CO oxidation rea...
Well-ordered ultrathin ZnO(0 0 0 1) films were grown on Pt(1 1 1) in a layer-by-layer mode. The reac...
We studied CO oxidation on FeO(1 1 1) films on Pt(1 1 1) at submonolayer oxide coverages at ultrahig...
Ultrathin manganese oxide films grown on Pt(111) were examined in the low temperature CO oxidation r...
Adsorption of CO and O2 on Pd particles deposited on a well-ordered Fe3O4(111) film was studied by t...
The reaction of CO and O2 with submonolayer and multilayer CoOx films on Pt(111), to produce CO2, wa...
Ultrathin manganese oxide films grown on Pt(111) were examined in the low temperature CO oxidation r...
The reaction of CO and O2 with submonolayer and multilayer CoOx films on Pt(111), to produce CO2, wa...
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