Separation of nitrogen removal pathways in a steady-state NO + CO reaction on Pd(1 1 0): An angle-resolved desorption study

Y. S. Ma, Izabela Irena Rzeznicka, T. Matsushima

研究成果: Article

3 引用 (Scopus)

抄録

Three surface-nitrogen removal processes, i.e. (i) N2O(a) → N2(g) + O(a), (ii) N2O(a) → N2O(g), and (iii) 2N(a) → N2(g), were separately analyzed in a steady-state NO + CO + O2 or NO + H2 reaction on Pd(1 1 0) through angular and velocity distributions of desorbing products. Processes (i) and (ii) are predominant at low surface temperatures, whereas process (iii) becomes major at high surface temperatures.

元の言語English
ページ(範囲)558-562
ページ数5
ジャーナルApplied Surface Science
244
発行部数1-4
DOI
出版物ステータスPublished - 2005 5 15
外部発表Yes

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Nitrogen removal
Carbon Monoxide
surface temperature
Desorption
desorption
nitrogen
angular distribution
velocity distribution
Angular distribution
Velocity distribution
products
Temperature

ASJC Scopus subject areas

  • Physical and Theoretical Chemistry
  • Surfaces, Coatings and Films
  • Condensed Matter Physics

これを引用

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abstract = "Three surface-nitrogen removal processes, i.e. (i) N2O(a) → N2(g) + O(a), (ii) N2O(a) → N2O(g), and (iii) 2N(a) → N2(g), were separately analyzed in a steady-state NO + CO + O2 or NO + H2 reaction on Pd(1 1 0) through angular and velocity distributions of desorbing products. Processes (i) and (ii) are predominant at low surface temperatures, whereas process (iii) becomes major at high surface temperatures.",
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T1 - Separation of nitrogen removal pathways in a steady-state NO + CO reaction on Pd(1 1 0)

T2 - An angle-resolved desorption study

AU - Ma, Y. S.

AU - Rzeznicka, Izabela Irena

AU - Matsushima, T.

PY - 2005/5/15

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AB - Three surface-nitrogen removal processes, i.e. (i) N2O(a) → N2(g) + O(a), (ii) N2O(a) → N2O(g), and (iii) 2N(a) → N2(g), were separately analyzed in a steady-state NO + CO + O2 or NO + H2 reaction on Pd(1 1 0) through angular and velocity distributions of desorbing products. Processes (i) and (ii) are predominant at low surface temperatures, whereas process (iii) becomes major at high surface temperatures.

KW - Angular distribution

KW - Decomposition

KW - Nitrogen

KW - Nitrogen oxide

KW - Nitrous oxide

KW - Palladium

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