Removal pathways of surface nitrogen in a steady-state NO + CO reaction on Pd(110) and Rh(110): Angular and velocity distribution studies

Izabela I. Rzeźnicka; Yunsheng Ma; Gengyu Cao; Tatsuo Matsushima

doi:10.1021/jp0379603

Removal pathways of surface nitrogen in a steady-state NO + CO reaction on Pd(110) and Rh(110): Angular and velocity distribution studies

Izabela I. Rzeźnicka, Yunsheng Ma, Gengyu Cao, Tatsuo Matsushima

研究成果: Article › 査読

29 被引用数 (Scopus)

抄録

The angular and velocity distributions of desorbing products N₂ and O₂ were studied in a steady-state NO + CO reaction on Pd(110) and Rh(110) by cross-correlation time-of-flight techniques. The CO₂ desorption sharply collimated along the surface normal on both surfaces. On the other hand, N₂ desorption on Pd(110) sharply collimated along about 40° off the surface normal in the plane along the [001] direction below around 650 K, yielding a translational temperature of about 3600 K. At higher temperatures, the normally directed desorption was relatively enhanced. On Rh(110), desorbing N₂ sharply collimated along the surface normal, yielding a translational temperature of about 2500 K. The inclined desorption was assigned to the decomposition of the intermediate, N₂O(a) → N₂(g) + O(a), and the normally directed component was proposed to be due to the associative desorption of adsorbed nitrogen atoms, 2N(a) → N₂(g). The branching of these pathways was analyzed on Pd(110).

本文言語	English
ページ（範囲）	14232-14243
ページ数	12
ジャーナル	Journal of Physical Chemistry B
巻	108
号	38
DOI	https://doi.org/10.1021/jp0379603
出版ステータス	Published - 2004 9月 23
外部発表	はい

ASJC Scopus subject areas

物理化学および理論化学
表面、皮膜および薄膜
材料化学

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10.1021/jp0379603

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引用スタイル

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title = "Removal pathways of surface nitrogen in a steady-state NO + CO reaction on Pd(110) and Rh(110): Angular and velocity distribution studies",

abstract = "The angular and velocity distributions of desorbing products N2 and O2 were studied in a steady-state NO + CO reaction on Pd(110) and Rh(110) by cross-correlation time-of-flight techniques. The CO2 desorption sharply collimated along the surface normal on both surfaces. On the other hand, N2 desorption on Pd(110) sharply collimated along about 40° off the surface normal in the plane along the [001] direction below around 650 K, yielding a translational temperature of about 3600 K. At higher temperatures, the normally directed desorption was relatively enhanced. On Rh(110), desorbing N2 sharply collimated along the surface normal, yielding a translational temperature of about 2500 K. The inclined desorption was assigned to the decomposition of the intermediate, N2O(a) → N2(g) + O(a), and the normally directed component was proposed to be due to the associative desorption of adsorbed nitrogen atoms, 2N(a) → N2(g). The branching of these pathways was analyzed on Pd(110).",

author = "Rze{\'z}nicka, {Izabela I.} and Yunsheng Ma and Gengyu Cao and Tatsuo Matsushima",

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T2 - Angular and velocity distribution studies

AU - Rzeźnicka, Izabela I.

AU - Ma, Yunsheng

AU - Cao, Gengyu

AU - Matsushima, Tatsuo

PY - 2004/9/23

Y1 - 2004/9/23

N2 - The angular and velocity distributions of desorbing products N2 and O2 were studied in a steady-state NO + CO reaction on Pd(110) and Rh(110) by cross-correlation time-of-flight techniques. The CO2 desorption sharply collimated along the surface normal on both surfaces. On the other hand, N2 desorption on Pd(110) sharply collimated along about 40° off the surface normal in the plane along the [001] direction below around 650 K, yielding a translational temperature of about 3600 K. At higher temperatures, the normally directed desorption was relatively enhanced. On Rh(110), desorbing N2 sharply collimated along the surface normal, yielding a translational temperature of about 2500 K. The inclined desorption was assigned to the decomposition of the intermediate, N2O(a) → N2(g) + O(a), and the normally directed component was proposed to be due to the associative desorption of adsorbed nitrogen atoms, 2N(a) → N2(g). The branching of these pathways was analyzed on Pd(110).

AB - The angular and velocity distributions of desorbing products N2 and O2 were studied in a steady-state NO + CO reaction on Pd(110) and Rh(110) by cross-correlation time-of-flight techniques. The CO2 desorption sharply collimated along the surface normal on both surfaces. On the other hand, N2 desorption on Pd(110) sharply collimated along about 40° off the surface normal in the plane along the [001] direction below around 650 K, yielding a translational temperature of about 3600 K. At higher temperatures, the normally directed desorption was relatively enhanced. On Rh(110), desorbing N2 sharply collimated along the surface normal, yielding a translational temperature of about 2500 K. The inclined desorption was assigned to the decomposition of the intermediate, N2O(a) → N2(g) + O(a), and the normally directed component was proposed to be due to the associative desorption of adsorbed nitrogen atoms, 2N(a) → N2(g). The branching of these pathways was analyzed on Pd(110).

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