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Synchrotron XPS and desorption study of the NO chemistry on a stepped Pt surface
Authors:C.J. Weststrate  J.W. Bakker  C.P. Vinod  S. Lizzit  A. Baraldi  B.E. Nieuwenhuys
Affiliation:a Leids instituut voor chemisch onderzoek, Universiteit Leiden, P.O. Box 9502, Einsteinweg 55, 2333 CC Leiden, The Netherlands
b Technische Universiteit Eindhoven, Schuit Institute of Catalysis, P.O. Box 5600 MB, Eindhoven, The Netherlands
c Sincrotrone Trieste, Strada Statale 14, km 163.5, I-34012 Basovizza, Italy
d Physics Department and Center of Excellence for Nanostructured Materials, Trieste University, Via Valerio 2, I-34127 Trieste, Italy
e Laboratorio TASC-INFM, S.S. 14 km 163.5, I-34012 Trieste, Italy
Abstract:The interaction of NO with Pt(4 1 0) was studied using high-energy resolution fast XPS and temperature programmed desorption/reaction mass spectroscopy. LEED studies show that the surface in the clean state restructures, which results in the formation of some larger {1 0 0} terraces. STM measurements show, that most terraces are small, ∼1 nm. Two different binding energy (BE) components were observed in the N 1s region of the core level spectra, both assigned to molecular forms of NO. NO dissociation starts between 350 and 400 K. This is a significantly higher temperature than previous literature reports suggested. This difference is thought to be caused by the restructuring of the surface used in our experiments. The reaction of NO with H2, NH3 and CO was also studied. The onset of these NO reduction reactions is determined by the NOad dissociation temperature (between 350 and 400 K) and NOad dissociation is the rate limiting step for all the reactions that were studied. Reaction with H2 yields NH3 below 600 K, but the selectivity shifts towards N2 at higher temperatures. We did not find any indication that reaction between NOad and NH3 ad proceeds via a special NO-NH3 intermediate. A new surface species was detected during the reaction between NO and CO, both in the N 1s and the C 1s spectrum. It is tentatively assigned to either CN or CNO. The reactivity of NO on Pt(4 1 0) is compared with the reactivity that was observed for Pt(1 0 0) and other noble metal surfaces, such as Pd and Rh.
Keywords:NO decomposition   Platinum(4     0)   Stepped Pt surface   Pt(1     0)   NO reduction   NO     CO reaction   NO     NH3 reaction   NO     H2 reaction
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