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Abstract
We provide experimental evidence that is inconsistent with often proposed Langmuir-Hinshelwood (LH) mechanistic hypotheses for water-promoted CO oxidation over Au-Fe2O3. Passing CO and H2O, but no O2, over Au-γ-Fe2O3 at 25 oC, we observe significant CO2 production, inconsistent with LH mechanistic hypotheses. Experiments with H218O further show that previous LH mechanistic proposals cannot account for water-promoted CO oxidation over Au-γ-Fe2O3. Guided by density functional theory, we instead postulate a water-promoted Mars-van-Krevelen (w-MvK) reaction. Our proposed w-MvK mechanism is consistent both with observed CO2 production in absence of O2, and with CO oxidation in presence of H218O and 16O2. In contrast, for Au-TiO2, our data is consistent with previous LH mechanistic hypotheses.
Supplementary materials
Title
Supporting Information
Description
Section S1. Experimental details. Section S2. Computational details and results. Section S3. Miscellaneous Figures. Section S4. Calculation of predicted abundances of C16O2, (C18O16O + C16O18O) and C18O2 resulting from C16O oxidation with 16O2 and H218O over Au-γ-Fe2O3.
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