Add to ORKGThe (111) surface of copper (Cu), its most compact and lowest energy surface, became unstable when exposed to carbon monoxide (CO) gas. Scanning tunneling microscopy revealed that at room temperature in the pressure range 0.1 to 100 Torr, the surface decomposed into clusters decorated by CO molecules attached to edge atoms. Between 0.2 and a few Torr CO, the clusters became mobile in the scale of minutes. Density functional theory showed that the energy gain from CO binding to low-coordinated Cu atoms and the weakening of binding of Cu to neighboring atoms help drive this process. Particularly for softer metals, the optimal balance of these two effects occurs near reaction conditions. Cluster formation activated the surface for water dissoc...
Nearly, all metals form spontaneously an oxygenated surface upon exposure to air. Here, we demonstra...
Carbon monoxide (CO) is a common air pollutant in the environment but at the same time an important ...
Using x-ray photoelectron spectroscopy we observe the breaking of the strong interatomic bond in mol...
The (111) surface of copper (Cu), its most compact and lowest energy surface, became unstable when e...
The bulk terminated Cu(100) surface becomes unstable in the presence of CO at room temperature when ...
We studied the structure of the copper-cobalt (CuCo) surface alloy, formed by Co deposition on Cu(11...
Carbon monoxide participates in many copper-catalyzed reactions, which makes CO-induced structural c...
Carbon monoxide participates in many copper-catalyzed reactions, which makes CO-induced structural c...
Carbon monoxide participates in many copper-catalyzed reactions, which makes CO-induced structural c...
Carbon monoxide participates in many copper-catalyzed reactions, which makes CO-induced structural c...
Carbon monoxide participates in many copper-catalyzed reactions, which makes CO-induced structural c...
We studied the structure of the copper-cobalt (CuCo) surface alloy, formed by Co deposition on Cu(11...
We studied the structure of the copper-cobalt (CuCo) surface alloy, formed by Co deposition on Cu(11...
Carbon monoxide participates in many copper-catalyzed reactions, which makes CO-induced structural c...
Nearly, all metals form spontaneously an oxygenated surface upon exposure to air. Here, we demonstra...
Nearly, all metals form spontaneously an oxygenated surface upon exposure to air. Here, we demonstra...
Carbon monoxide (CO) is a common air pollutant in the environment but at the same time an important ...
Using x-ray photoelectron spectroscopy we observe the breaking of the strong interatomic bond in mol...
The (111) surface of copper (Cu), its most compact and lowest energy surface, became unstable when e...
The bulk terminated Cu(100) surface becomes unstable in the presence of CO at room temperature when ...
We studied the structure of the copper-cobalt (CuCo) surface alloy, formed by Co deposition on Cu(11...
Carbon monoxide participates in many copper-catalyzed reactions, which makes CO-induced structural c...
Carbon monoxide participates in many copper-catalyzed reactions, which makes CO-induced structural c...
Carbon monoxide participates in many copper-catalyzed reactions, which makes CO-induced structural c...
Carbon monoxide participates in many copper-catalyzed reactions, which makes CO-induced structural c...
Carbon monoxide participates in many copper-catalyzed reactions, which makes CO-induced structural c...
We studied the structure of the copper-cobalt (CuCo) surface alloy, formed by Co deposition on Cu(11...
We studied the structure of the copper-cobalt (CuCo) surface alloy, formed by Co deposition on Cu(11...
Carbon monoxide participates in many copper-catalyzed reactions, which makes CO-induced structural c...
Nearly, all metals form spontaneously an oxygenated surface upon exposure to air. Here, we demonstra...
Nearly, all metals form spontaneously an oxygenated surface upon exposure to air. Here, we demonstra...
Carbon monoxide (CO) is a common air pollutant in the environment but at the same time an important ...
Using x-ray photoelectron spectroscopy we observe the breaking of the strong interatomic bond in mol...