Characterization of various oxygen species on an oxide surface: RuO2(110)

Y. D. Kim; A. P. Seitsonen; S. Wendt; J. Wang; C. Fan; K. Jacobi; H. Over; G. Ertl

doi:10.1021/jp003213j

Characterization of various oxygen species on an oxide surface: RuO₂(110)

Y. D. Kim
, A. P. Seitsonen
, S. Wendt
, J. Wang
, C. Fan
, K. Jacobi
, H. Over
, G. Ertl

Research output: Contribution to journal › Article › peer-review

215 Scopus citations

Abstract

The stoichiometric RuO₂(110) surface is terminated by bridge-coordinated oxygen atoms (O_β) and by coordinatively unsaturated Ru (Ru_cus) atoms. Exposure to gaseous O₂ leads to the formation of two additional surface species: a molecularly chemisorbed state (O_σ) bridging two neighboring Ru_cus atoms and weakly held O atoms (O_γ) in terminal position above the Ru_cus atoms. Characterization of the energetics and kinetics as well as structural, vibrational, and electronic properties is achieved by combined application of experimental (low-energy electron diffraction, high-resolution electron loss spectroscopy, thermal desorption spectroscopy) and theoretical (density functional theory) methods. The interplay between the different oxygen species accounts for the high sticking coefficient for dissociative adsorption as well as for the continuous restoration of the surface structure in the course of catalytic oxidation reactions.

Original language	English
Pages (from-to)	3752-3758
Number of pages	7
Journal	Journal of Physical Chemistry B
Volume	105
Issue number	18
DOIs	https://doi.org/10.1021/jp003213j
State	Published - 10 May 2001
Externally published	Yes

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title = "Characterization of various oxygen species on an oxide surface: RuO2(110)",

abstract = "The stoichiometric RuO2(110) surface is terminated by bridge-coordinated oxygen atoms (Oβ) and by coordinatively unsaturated Ru (Rucus) atoms. Exposure to gaseous O2 leads to the formation of two additional surface species: a molecularly chemisorbed state (Oσ) bridging two neighboring Rucus atoms and weakly held O atoms (Oγ) in terminal position above the Rucus atoms. Characterization of the energetics and kinetics as well as structural, vibrational, and electronic properties is achieved by combined application of experimental (low-energy electron diffraction, high-resolution electron loss spectroscopy, thermal desorption spectroscopy) and theoretical (density functional theory) methods. The interplay between the different oxygen species accounts for the high sticking coefficient for dissociative adsorption as well as for the continuous restoration of the surface structure in the course of catalytic oxidation reactions.",

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doi = "10.1021/jp003213j",

language = "English",

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TY - JOUR

T1 - Characterization of various oxygen species on an oxide surface

T2 - RuO2(110)

AU - Kim, Y. D.

AU - Seitsonen, A. P.

AU - Wendt, S.

AU - Wang, J.

AU - Fan, C.

AU - Jacobi, K.

AU - Over, H.

AU - Ertl, G.

PY - 2001/5/10

Y1 - 2001/5/10

N2 - The stoichiometric RuO2(110) surface is terminated by bridge-coordinated oxygen atoms (Oβ) and by coordinatively unsaturated Ru (Rucus) atoms. Exposure to gaseous O2 leads to the formation of two additional surface species: a molecularly chemisorbed state (Oσ) bridging two neighboring Rucus atoms and weakly held O atoms (Oγ) in terminal position above the Rucus atoms. Characterization of the energetics and kinetics as well as structural, vibrational, and electronic properties is achieved by combined application of experimental (low-energy electron diffraction, high-resolution electron loss spectroscopy, thermal desorption spectroscopy) and theoretical (density functional theory) methods. The interplay between the different oxygen species accounts for the high sticking coefficient for dissociative adsorption as well as for the continuous restoration of the surface structure in the course of catalytic oxidation reactions.

AB - The stoichiometric RuO2(110) surface is terminated by bridge-coordinated oxygen atoms (Oβ) and by coordinatively unsaturated Ru (Rucus) atoms. Exposure to gaseous O2 leads to the formation of two additional surface species: a molecularly chemisorbed state (Oσ) bridging two neighboring Rucus atoms and weakly held O atoms (Oγ) in terminal position above the Rucus atoms. Characterization of the energetics and kinetics as well as structural, vibrational, and electronic properties is achieved by combined application of experimental (low-energy electron diffraction, high-resolution electron loss spectroscopy, thermal desorption spectroscopy) and theoretical (density functional theory) methods. The interplay between the different oxygen species accounts for the high sticking coefficient for dissociative adsorption as well as for the continuous restoration of the surface structure in the course of catalytic oxidation reactions.

UR - https://www.scopus.com/pages/publications/0035837984

U2 - 10.1021/jp003213j

DO - 10.1021/jp003213j

M3 - Article

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SP - 3752

EP - 3758

JO - Journal of Physical Chemistry B

JF - Journal of Physical Chemistry B

IS - 18

ER -

Characterization of various oxygen species on an oxide surface: RuO₂(110)

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