Angular and velocity distributions of desorbing product carbon dioxide from two reaction sites on platinum(110)(1×2)

Ohno, Yuichi; Matsushima, Tatsuo; Uetsuka, Hiroshi

doi:10.1063/1.467386


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Angular and velocity distributions of desorbing product carbon dioxide from two reaction sites on platinum(110)(1×2)

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Please use this identifier to cite or link to this item:http://hdl.handle.net/2115/11327

Title:	Angular and velocity distributions of desorbing product carbon dioxide from two reaction sites on platinum(110)(1×2)
Authors:	Ohno, Yuichi Browse this author →KAKEN DB
	Matsushima, Tatsuo Browse this author →KAKEN DB
	Uetsuka, Hiroshi Browse this author
Issue Date:	15-Sep-1994
Publisher:	American Institute of Physics
Journal Title:	The Journal of Chemical Physics
Volume:	101
Issue:	6
Start Page:	5319
End Page:	5328
Publisher DOI:	10.1063/1.467386
Abstract:	The angular and velocity distributions of desorbing product CO2 were studied on a platinum(110)(1×2) surface over a wide range of CO coverages by means of angle-resolved thermal desorption combined with a cross-correlation time-of-flight (TOF) technique. Heating the coadsorption layer of CO and oxygen yields four CO2 formation peaks P1–CO2 (~400 K), P2–CO2 (300 K), P3–CO2 (250 K), and P4–CO2 (170 K)]. The angular distribution of each CO2 produced at high CO coverages consists of three desorption components. Two of them show desorption collimated along the inclined terrace normal; the other shows it along the bulk surface normal. The former is assigned to reaction on the inclined terrace, and the latter mostly to reaction on the bottom of the trough. The translational temperature of each desorption component is derived by deconvoluting the TOF spectrum. This temperature reaches 1000–1500 K. The maximum translational temperature is always observed in the normal direction of each reaction site. For P2–and P3–CO2, the maximum translational temperature of the normal-directional component is lower than that of the inclined components. For P4–CO2, on the other hand, the maximum translational temperature of the normal-directional component is close to that of the inclined components. A transfer mechanism of reaction sites is proposed.
Rights:	Copyright (c) 1994 American Institute of Physics
Relation:	http://www.aip.org/
Type:	article
URI:	http://hdl.handle.net/2115/11327
Appears in Collections:	触媒科学研究所 (Institute for Catalysis) > 雑誌発表論文等 (Peer-reviewed Journal Articles, etc)

Submitter: 松島龍夫

OAI-PMH ( junii2 , jpcoar_1.0 )

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