2004
DOI: 10.1021/jp037130p
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N2 Desorption in the Decomposition of Adsorbed N2O on Rh(110)

Abstract: The decomposition of N 2 O(a) was studied on Rh(110) at 95-200 K through the analysis of the angular distributions of desorbing N 2 by means of angle-resolved thermal desorption. N 2 O(a) was highly decomposed during the heating procedures, emitting N 2 (g) and releasing O(a). N 2 desorption showed four peaks, at 105-110 K (β 4 -N 2 ), 120-130 K (β 3 -N 2 ), 140-150 K (β 2 -N 2 ), and 160-165 K (β 1 -N 2 ). The appearance of each peak was sensitive to annealing after oxygen adsorption and also to the amount of… Show more

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Cited by 34 publications
(41 citation statements)
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“…15 N 2 O was introduced through a doser with a small orifice (diameter; 0.1 mm) while 13 CO and 15 NO were backfilled. The partial pressures of 13 C 16 O (P CO ) and 15 NO (P NO ) were kept constant by dosing the gases continuously.…”
Section: Methodsmentioning
confidence: 99%
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“…15 N 2 O was introduced through a doser with a small orifice (diameter; 0.1 mm) while 13 CO and 15 NO were backfilled. The partial pressures of 13 C 16 O (P CO ) and 15 NO (P NO ) were kept constant by dosing the gases continuously.…”
Section: Methodsmentioning
confidence: 99%
“…No differences were found in the CO 2 distribution between them. The distribution in the NO+CO reaction was approximated as a {cos 13 (θ) + 0.2 cos(θ)} form at φ = 0 • and a {cos 4 (θ) + 0.2 cos(θ)} form at φ = 90…”
Section: Angular Distribution and Crystal Azimuthmentioning
confidence: 99%
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“…17,53 The intermediate N 2 O is easily formed from the reaction N͑a͒ +NO͑a͒ in NO reduction on palladium, platinum, and rhodium surfaces. 12,[23][24][25] The reaction pathway through N 2 O decomposition is operative at low temperatures where NO͑a͒ is significant, more than N͑a͒.…”
Section: B Intermediate Structurementioning
confidence: 99%
“…36 This oxygen prevents N 2 O from dissociating because the local oxygen coverage is 0.5 ML. 42 The surface structure under reducing conditions is ͑1 ϫ 1͒, which is very active toward N 2 O dissociation. With the surface temperature decreasing below 540 K, the N 2 distribution on Rh͑110͒ narrows from a cos 9 ͑ ±62͒ form at 550 K to a cos 13 ͑ ±46͒ form at 450 K. This distribution is not as sharp as would be expected from the high translational temperature of approximately 3500 K. This is also in contrast to previous results, i.e., the product CO 2 in the active region of the CO oxidation on Rh͑110͒ …”
Section: B Desorption Components and Adsorbed N 2 Omentioning
confidence: 99%