Abstract
The adsorption and reaction of methanol(CH3OH) and nitrogendioxide (NO2) on CeO2(111) surfaces in different oxidation states were studied by noncontact atomic force microscopy (NC-AFM). AfterCH3OH exposure,surface oxygen defects without reconstruction of the surrounding oxygen atoms were healed by methoxyspecies (CH3O).Under a CH3OH atmosphere, a heterogeneous feature in the reactivity of surface oxygen atoms toCH3OH was observed by successive NC-AFM observation: new line defects ofoxygen were produced as a result of a chemical event. Successive NC-AFMmeasurements also revealed that oxygen vacancies on a slightly reducedCeO2(111) surface were healedby exposure to NO2. The contrast of healed oxygen defects in NC-AFM images was similar to that ofother surface oxygen atoms. This indicates that dissociative adsorption ofNO2 occurred at the defects. Nitrogen trioxide(NO3) was also observedon a slightly reduced CeO2(111) surface after NO2 exposure. On a CeO2(111) surface without surface oxygen defects, neither adsorption ofNO2 norformation of NO3 was observed. The reaction mechanisms for the formation of line defects andNO3 are discussed briefly.
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