Add to ORKGXPS studies of the interaction of carbon monoxide with surfaces of Fe, Co and Ni indicate that at 300 K, the disproportionation reaction is prominent up to exposures of 103 L giving rise to high surface concentrations of carbon. At higher exposures and higher temperatures, dissociation of carbon monoxide accompanied by the formation of surface oxide layers becomes more prominent. In the case of copper, disproportionation is prominent up to 104 L even at 500 K followed by dissociation at higher exposures. These results are also supported by Auger spectroscopic studies. \u
The interaction of CO with stepped surfaces of transition metal field emitter tips has been studied ...
UPS and XPS studies indicate that carbon monoxide preferentially adsorbs dissociatively on the surfa...
Cu(111)-Ni surface alloys were prepared by dissociation of nickel carbonyl on clean Cu(111). The ads...
XPS studies of the interaction of carbon monoxide with surfaces of Fe, Co and Ni indicate that at 30...
Interaction of carbon monoxide with a few chosen bimetallic overlayers has been investigated along w...
Interaction of carbon monoxide with a few chosen bimetallic overlayers has been investigated along w...
Interaction of carbon monoxide with a few chosen bimetallic overlayers has been investigated along w...
Carbon monoxide adsorbed on Al-promoted Ni and Cu surfaces undergoes facile dissociation at 300 K or...
Carbon monoxide adsorbed on Al-promoted Ni and Cu surfaces undergoes facile dissociation at 300 K or...
The kinetics of atomic carbon and oxygen buildup on a Ni(1OO) surface exposed to carbon monoxide at ...
The kinetics of atomic carbon and oxygen buildup on a Ni(1OO) surface exposed to carbon monoxide at ...
The kinetics of atomic carbon and oxygen buildup on a Ni(1OO) surface exposed to carbon monoxide at ...
The interaction of carbon monoxide with Ni(100) has been studied by ellipsometry and Auger electron ...
UPS and XPS studies indicate that carbon monoxide preferentially adsorbs dissociatively on the surfa...
UPS and XPS studies indicate that carbon monoxide preferentially adsorbs dissociatively on the surfa...
The interaction of CO with stepped surfaces of transition metal field emitter tips has been studied ...
UPS and XPS studies indicate that carbon monoxide preferentially adsorbs dissociatively on the surfa...
Cu(111)-Ni surface alloys were prepared by dissociation of nickel carbonyl on clean Cu(111). The ads...
XPS studies of the interaction of carbon monoxide with surfaces of Fe, Co and Ni indicate that at 30...
Interaction of carbon monoxide with a few chosen bimetallic overlayers has been investigated along w...
Interaction of carbon monoxide with a few chosen bimetallic overlayers has been investigated along w...
Interaction of carbon monoxide with a few chosen bimetallic overlayers has been investigated along w...
Carbon monoxide adsorbed on Al-promoted Ni and Cu surfaces undergoes facile dissociation at 300 K or...
Carbon monoxide adsorbed on Al-promoted Ni and Cu surfaces undergoes facile dissociation at 300 K or...
The kinetics of atomic carbon and oxygen buildup on a Ni(1OO) surface exposed to carbon monoxide at ...
The kinetics of atomic carbon and oxygen buildup on a Ni(1OO) surface exposed to carbon monoxide at ...
The kinetics of atomic carbon and oxygen buildup on a Ni(1OO) surface exposed to carbon monoxide at ...
The interaction of carbon monoxide with Ni(100) has been studied by ellipsometry and Auger electron ...
UPS and XPS studies indicate that carbon monoxide preferentially adsorbs dissociatively on the surfa...
UPS and XPS studies indicate that carbon monoxide preferentially adsorbs dissociatively on the surfa...
The interaction of CO with stepped surfaces of transition metal field emitter tips has been studied ...
UPS and XPS studies indicate that carbon monoxide preferentially adsorbs dissociatively on the surfa...
Cu(111)-Ni surface alloys were prepared by dissociation of nickel carbonyl on clean Cu(111). The ads...