Abstract
The initial stages of water condensation, approximately 6 molecular layers, on two oxide surfaces, Cu2O and Al2O3, have been investigated by using ambient pressure X-ray photoelectron spectroscopy at relative humidity values (RH) from 0 to >90%. Water adsorbs first dissociatively on oxygen vacancies producing adsorbed hydroxyl groups in a stoichiometric reaction: Olattic + vacancies + H2O = 2OH. The reaction is completed at ∼1% RH and is followed by adsorption of molecular water. The thickness of the water film grows with increasing RH. The first monolayer is completed at ∼15% RH on both oxides and is followed by a second layer at 35−40% RH. At 90% RH, about 6 layers of H2O film have been formed on Al2O3.
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