Complex interaction of hydrogen with the RuO2(110) surface

M. Knapp; D. Crihan; A. P. Seitsonen; Edvin Lundgren; Andrea Resta; Jesper N Andersen; H. Over

doi:10.1021/jp0667339

Complex interaction of hydrogen with the RuO2(110) surface

M. Knapp, D. Crihan, A. P. Seitsonen, Edvin Lundgren, Andrea Resta, Jesper N Andersen, H. Over

Synchrotron Radiation Research

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Abstract

Using a variety of dedicated surface sensitive techniques, we studied the interaction of hydrogen with bare and adsorbate modified RuO2(110) surfaces on the atomic scale. Hydrogen interacts strongly with the undercoordinated O atoms, thereby forming hydroxyl groups and passivating available oxygen species on the oxide surface, for instance, for the catalytic CO oxidation reaction. Temperature programmed reaction and desorption elucidate the complex reaction behavior of hydrogen with O precovered RuO2(110), including the hydrogen transfer reaction between the different kinds of undercoordinated surface oxygen atoms. Hydroxyl, water species, and hydrogen transfer are identified with high-resolution O1s core level spectroscopy by comparison with density functional theory (DFT) calculated O1s core level shifts. DFT calculations provide adsorption energies, atomic geometries, as well as diffusion barriers of H atoms on the RuO2(110) surface.

Original language	English
Pages (from-to)	5363-5373
Journal	Journal of Physical Chemistry C
Volume	111
Issue number	14
DOIs	https://doi.org/10.1021/jp0667339
Publication status	Published - 2007

Subject classification (UKÄ)

Atom and Molecular Physics and Optics

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10.1021/jp0667339

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title = "Complex interaction of hydrogen with the RuO2(110) surface",

abstract = "Using a variety of dedicated surface sensitive techniques, we studied the interaction of hydrogen with bare and adsorbate modified RuO2(110) surfaces on the atomic scale. Hydrogen interacts strongly with the undercoordinated O atoms, thereby forming hydroxyl groups and passivating available oxygen species on the oxide surface, for instance, for the catalytic CO oxidation reaction. Temperature programmed reaction and desorption elucidate the complex reaction behavior of hydrogen with O precovered RuO2(110), including the hydrogen transfer reaction between the different kinds of undercoordinated surface oxygen atoms. Hydroxyl, water species, and hydrogen transfer are identified with high-resolution O1s core level spectroscopy by comparison with density functional theory (DFT) calculated O1s core level shifts. DFT calculations provide adsorption energies, atomic geometries, as well as diffusion barriers of H atoms on the RuO2(110) surface.",

author = "M. Knapp and D. Crihan and Seitsonen, {A. P.} and Edvin Lundgren and Andrea Resta and Andersen, {Jesper N} and H. Over",

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doi = "10.1021/jp0667339",

language = "English",

volume = "111",

pages = "5363--5373",

journal = "Journal of Physical Chemistry C",

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T1 - Complex interaction of hydrogen with the RuO2(110) surface

AU - Knapp, M.

AU - Crihan, D.

AU - Seitsonen, A. P.

AU - Lundgren, Edvin

AU - Resta, Andrea

AU - Andersen, Jesper N

AU - Over, H.

PY - 2007

Y1 - 2007

N2 - Using a variety of dedicated surface sensitive techniques, we studied the interaction of hydrogen with bare and adsorbate modified RuO2(110) surfaces on the atomic scale. Hydrogen interacts strongly with the undercoordinated O atoms, thereby forming hydroxyl groups and passivating available oxygen species on the oxide surface, for instance, for the catalytic CO oxidation reaction. Temperature programmed reaction and desorption elucidate the complex reaction behavior of hydrogen with O precovered RuO2(110), including the hydrogen transfer reaction between the different kinds of undercoordinated surface oxygen atoms. Hydroxyl, water species, and hydrogen transfer are identified with high-resolution O1s core level spectroscopy by comparison with density functional theory (DFT) calculated O1s core level shifts. DFT calculations provide adsorption energies, atomic geometries, as well as diffusion barriers of H atoms on the RuO2(110) surface.

AB - Using a variety of dedicated surface sensitive techniques, we studied the interaction of hydrogen with bare and adsorbate modified RuO2(110) surfaces on the atomic scale. Hydrogen interacts strongly with the undercoordinated O atoms, thereby forming hydroxyl groups and passivating available oxygen species on the oxide surface, for instance, for the catalytic CO oxidation reaction. Temperature programmed reaction and desorption elucidate the complex reaction behavior of hydrogen with O precovered RuO2(110), including the hydrogen transfer reaction between the different kinds of undercoordinated surface oxygen atoms. Hydroxyl, water species, and hydrogen transfer are identified with high-resolution O1s core level spectroscopy by comparison with density functional theory (DFT) calculated O1s core level shifts. DFT calculations provide adsorption energies, atomic geometries, as well as diffusion barriers of H atoms on the RuO2(110) surface.

U2 - 10.1021/jp0667339

DO - 10.1021/jp0667339

M3 - Article

SN - 1932-7447

VL - 111

SP - 5363

EP - 5373

JO - Journal of Physical Chemistry C

JF - Journal of Physical Chemistry C

IS - 14

ER -

Complex interaction of hydrogen with the RuO2(110) surface

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