期刊
JOURNAL OF CATALYSIS
卷 246, 期 1, 页码 118-126出版社
ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.jcat.2006.11.022
关键词
photocatalytic oxidation; ethanol; adsorbed species; reaction mechanism; in situ infrared spectroscopy; photogenerated electrons
The reaction pathways for the photocatalytic oxidation of ethanol on the TiO2 surface at 30 degrees C were studied by in situ infrared (IR) spectroscopy. The coverage of ethanol and water was found to play a key role in how the reaction is initiated. The low ethanol coverage on the H2Oad-containing TiO2 surface produced adsorbed formate (HCOOad-) as a primary intermediate; the high ethanol coverage on the H2Oad-deficient TiO2 surface produced adsorbed acetate (CH3COOad-) as a major intermediate during the initial period (i.e., 2 min) of the photocatalytic oxidation. The adsorbed species and reaction products observed during in situ IR studies suggest the low-coverage ethanol reaction is initiated by center dot OH, whereas the high-coverage ethanol reaction is initiated by hole. The hole-initiating ethanol oxidation on the H2Oad-deficient TiO2 surface produced adsorbed acetic acid (CH3COOHad)/CH3COOad-, and built up photogenerated electrons, giving a parallel increase in the IR intensity of CH3COOad- and the IR background at 2000 cm(-1) (i.e., a measure of photogenerated electrons). As the high-coverage ethanol reaction proceeded toward producing CO2/H2O, adsorbed H2O accumulated and the coverage of CH3CH2OHad/CH3CH2Oad decreased on the TiO2 surface, shifting the reaction from hole-initiating to center dot OH-initiating. (c) 2006 Elsevier Inc. All rights reserved.
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