Mechanism of CO and O₃ sensing on WO₃ surfaces: First principle study

Oison, Vincent; Saadi, Lama; Lambert-Mauriat, Caroline; Hayn, Roland

Mechanism of CO and O₃ sensing on WO₃ surfaces: First principle study

2011

Oison, Vincent | Saadi, Lama | Lambert-Mauriat, Caroline | Hayn, Roland

The microscopic mechanism of O₃ and CO sensing on WO₃ surfaces is clarified by a first principle study. It is shown that ozone reduces to O₂ on the (001) surface of WO₃ decreasing in such a way the number of oxygen vacancies and the conductivity (since oxygen vacancies act as donors in WO₃). The mechanism of CO sensing is just the opposite: the CO molecule is oxidized to CO₂ on the WO₃ surface increasing the number of oxygen vacancies and the conductivity. The reaction enthalpy for the reduction process of O₃ is found to be −2.54eV in local density approximation (LDA) and −2.86 in generalized gradient approximation (GGA). The corresponding values for CO are −1.73eV (LDA) and −1.52eV (GGA). The adsorptions of O₃ and CO without reduction or oxidation are also calculated but the related energies are much smaller.

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AGROVOC Keywords

adsorption carbon dioxide enthalpy oxidation oxygen ozone

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Published in

Sensors and actuators

Volume 160 Issue 1 Pagination 505 - 510 ISSN 0925-4005

Publisher

Elsevier B.V.

Language

English

Type

Journal Article; Text

In AGRIS since: 2024-02-28

Format: MODS

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DOI DOI http://dx.doi.org/10.1016/j.snb.2011.08.018

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Mechanism of CO and O₃ sensing on WO₃ surfaces: First principle study

2011

AGROVOC Keywords

Bibliographic information