Journal
ACS CATALYSIS
Volume 8, Issue 12, Pages 11663-11670Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acscatal.8b03180
Keywords
operando observation; NAP-XPS; Rh; NO reduction; kinetics; reaction mechanism
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Funding
- Photon Factory Program Advisory Committee (PF PAC) [2015S2-008]
- [20245004]
- [26248008]
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NO reduction by CO on Rh(111) was investigated by near-ambient pressure X-ray photoelectron spectroscopy, mass spectrometry, and kinetic analysis. Under exposure to NO + CO mixed gases and with heating the surface from room temperature to 450 degrees C, NO dissociation and NO reduction reaction start simultaneously independent of gas pressure ratio of NO/CO, which indicates that NO dissociation triggers this reaction. From kinetic analyses based on observed adsorbate coverages under reaction conditions, the following two points are suggested: (i) NOhollow is a reactive species for N-2 and N2O formation via N + NO reaction. (ii) At low temperatures, the N + NO reaction is dominant for N-2 production, whereas above around 400 degrees C, the N + N reaction becomes dominant, which leads to an increase in N-2 selectivity at the higher temperatures. Compared with the NO + CO reaction on Ir(111) surfaces, which exhibits a high N-2 selectivity, the adsorption site of reactive NO and the availability of vacant surface sites could be key factors for the lower N-2 selectivity for Rh(111)
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