Optical characterization of methanol adsorption on the bare and oxygen precovered Cu(1 1 0) surface

We have studied the adsorption and reaction of methanol on the bare and oxygen precovered Cu(1 1 0) surface at 200 K using reflectance difference spectroscopy (RDS). On the bare and fully oxygen covered surface, the sticking coefficient is close to zero. In contrast, on the partially oxygen covered surface, a sticking coefficient close to unity is obtained. This observation suggests a high mobility of methanol on both bare and oxygen covered Cu(1 1 0) and of methoxy on Cu(1 1 0). Two reaction regimes, an oxygen supply limited and an adsorption site limited regime are identified. The transition between these two regimes occurs for an oxygen coverage of about 0.2. © 2010 Elsevier B.V. All rights reserved.

Adsorption; Catalysis; Copper; Low index single crystal surfaces; Nanostructures; Reflection spectroscopy; Surface electronic phenomena Adsorption and reactions; Adsorption site; Cu(1 1 0); High mobility; Low index single crystal surfaces; Methanol adsorption; Methoxy; Optical characterization; Reflectance difference spectroscopy; Reflection spectroscopy; Sticking coefficients; Surface electronic phenomena; Two-regime; Adsorption; Catalysis; Electromagnetic wave reflection; Methanol; Nanostructures; Single crystal surfaces; Oxygen supply

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