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Electro-oxidation of carbon monoxide on well-ordered Pt(111)/Sn surface alloys

Electro-oxidation of carbon monoxide on well-ordered Pt(111)/Sn surface alloys
Electro-oxidation of carbon monoxide on well-ordered Pt(111)/Sn surface alloys
The electro-oxidation of CO on model platinum-tin alloy catalysts has been studied by ex-situ electrochemical measurements following the preparation of the Pt(111)/Sn(2x2) and Pt(111)/Sn(?3x?3)-R30° surfaces. A surface redox couple, which is associated with the adsorption/desorption of hydroxide on the Sri sites, is observed at 0.28 V-RHE/0.15 V-RHE in H2SO4 electrolyte on both surfaces. Evidence that it is associated with the adsorption of OH comes from ex-situ photoemission measurements, which indicate that the Sri atoms are in a metallic state at potentials below 0.15 V-RHE and an oxidized state at potentials above 0.28 V-RHE. Specific adsorption of sulfate anions is not associated with the surface process since there is no evidence from photoemission of sulfate adsorption, and the same surface couple is observed in the HClO4 electrolyte. CO is adsorbed from solution at 300 K, with saturation coverages of 0.37 ± 0.05 and 0.2 ± 0.05 ML, respectively. The adsorbed CO is oxidatively stripped at the potential coincident with the adsorption of hydroxide on the tin sites, viz., 0.28 V-RHE. This strong promotional effect is unambiguously associated with the bifunctional mechanism. The Sn-induced activation of water, and promotion of CO electro-oxidation, is sustained as long as the alloy structure remains intact, in the potential range below 0.5 V-RHE. The results are discussed in the light of the requirements for CO-tolerant platinum-based electrodes in hydrogen fuel cell anode catalysts and catalysts for direct methanol electro-oxidation.
methanol fuel-cells, single-crystal surfaces, rotating-disk electrode, platinum-tin catalysts, ruthenium ad-atoms, pt-ru, co electrooxidation, bimetallic surfaces, co/h-2 mixtures, sn adatoms
0002-7863
7738-7742
Hayden, Brian E.
aea74f68-2264-4487-9d84-5b12ddbbb331
Rendall, Michael E.
8bfffe2e-4fa1-4326-9c04-636a849940bb
South, Oliver
ee52571a-18b9-458e-b309-aff0cf762bfc
Hayden, Brian E.
aea74f68-2264-4487-9d84-5b12ddbbb331
Rendall, Michael E.
8bfffe2e-4fa1-4326-9c04-636a849940bb
South, Oliver
ee52571a-18b9-458e-b309-aff0cf762bfc

Hayden, Brian E., Rendall, Michael E. and South, Oliver (2003) Electro-oxidation of carbon monoxide on well-ordered Pt(111)/Sn surface alloys. Journal of the American Chemical Society, 125 (25), 7738-7742. (doi:10.1021/ja0214781).

Record type: Article

Abstract

The electro-oxidation of CO on model platinum-tin alloy catalysts has been studied by ex-situ electrochemical measurements following the preparation of the Pt(111)/Sn(2x2) and Pt(111)/Sn(?3x?3)-R30° surfaces. A surface redox couple, which is associated with the adsorption/desorption of hydroxide on the Sri sites, is observed at 0.28 V-RHE/0.15 V-RHE in H2SO4 electrolyte on both surfaces. Evidence that it is associated with the adsorption of OH comes from ex-situ photoemission measurements, which indicate that the Sri atoms are in a metallic state at potentials below 0.15 V-RHE and an oxidized state at potentials above 0.28 V-RHE. Specific adsorption of sulfate anions is not associated with the surface process since there is no evidence from photoemission of sulfate adsorption, and the same surface couple is observed in the HClO4 electrolyte. CO is adsorbed from solution at 300 K, with saturation coverages of 0.37 ± 0.05 and 0.2 ± 0.05 ML, respectively. The adsorbed CO is oxidatively stripped at the potential coincident with the adsorption of hydroxide on the tin sites, viz., 0.28 V-RHE. This strong promotional effect is unambiguously associated with the bifunctional mechanism. The Sn-induced activation of water, and promotion of CO electro-oxidation, is sustained as long as the alloy structure remains intact, in the potential range below 0.5 V-RHE. The results are discussed in the light of the requirements for CO-tolerant platinum-based electrodes in hydrogen fuel cell anode catalysts and catalysts for direct methanol electro-oxidation.

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Published date: 25 June 2003
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Keywords: methanol fuel-cells, single-crystal surfaces, rotating-disk electrode, platinum-tin catalysts, ruthenium ad-atoms, pt-ru, co electrooxidation, bimetallic surfaces, co/h-2 mixtures, sn adatoms
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Identifiers

Local EPrints ID: 19973
URI: http://eprints.soton.ac.uk/id/eprint/19973
DOI: doi:10.1021/ja0214781
ISSN: 0002-7863
PURE UUID: aa994cfe-5ea8-4618-924e-e69dd3de7ab7
ORCID for Brian E. Hayden: ORCID iD orcid.org/0000-0002-7762-1812

Catalogue record

Date deposited: 24 Feb 2006
Last modified: 16 Mar 2024 02:36

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Author: Brian E. Hayden ORCID iD
Author: Michael E. Rendall
Author: Oliver South

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