Determination of the Gibbs excess of H adsorbed at a Pt(111) electrode surface in the presence of co-adsorbed chloride
Determination of the Gibbs excess of H adsorbed at a Pt(111) electrode surface in the presence of co-adsorbed chloride
The thermodynamics of the so-called perfectly polarizable electrode was employed to analyze the total charge densities for a Pt(1 1 1) electrode in a series of solutions (0.1 - x) M HClO4 + x M KClO4 + 2.5 × 10-3 M NaCl with a constant ionic strength and variable pH. The total charge densities were calculated by integration of cyclic voltammetry curves. The adsorption of chloride present in the electrolyte blocked hydrogen and OH adsorption at potentials 0.3 < E < 0.7 V (SHE). Consequently, the differential capacity, charge density and surface energy become pH independent in that potential range providing pH independent integration constants for the integration of CVs. For E < 0.3 V (SHE), a complete thermodynamic analysis using charge and potential as independent variables has been performed. The Gibbs excesses of adsorbed hydrogen were determined without a need to introduce any arbitrary correction for the so-called charging of the double layer and further assumptions about the charge number per adsorbed species. Using the thermodynamic method, the charge numbers at a constant potential (electrosorption valency) and at a constant chemical potential (reciprocal of the Esin–Markov coefficient) for adsorbed hydrogen were calculated using the Gibbs excess data. The charge numbers are equal to ~1, indicating that the adsorbed species is a totally discharged hydrogen atom. For 0.1 M HClO4 + 2.5 × 10-3 M NaCl solution Gibbs excesses of both hydrogen and chloride were determined. In a narrow potential range 0.2 < E < 0.3 V (SHE) chloride and hydrogen atoms are simultaneously adsorbed at the electrode surface. We have demonstrated that their adsorption has a competitive character
76-84
Garcia-Araez, Nuria
9358a0f9-309c-495e-b6bf-da985ad81c37
Climent, Victor
c3ecab58-edb5-4055-8fa0-c0aef0fc60a4
Herrero, Enrique
96568627-6e11-4e5a-9021-e9dcc45b80c2
Feliu, Juan M.
f2a5301a-2886-4f27-b614-99a74a0a9a28
Lipkowski, Jacek
d4e2022d-80e3-408c-b4ca-e2c1775b91c0
15 August 2005
Garcia-Araez, Nuria
9358a0f9-309c-495e-b6bf-da985ad81c37
Climent, Victor
c3ecab58-edb5-4055-8fa0-c0aef0fc60a4
Herrero, Enrique
96568627-6e11-4e5a-9021-e9dcc45b80c2
Feliu, Juan M.
f2a5301a-2886-4f27-b614-99a74a0a9a28
Lipkowski, Jacek
d4e2022d-80e3-408c-b4ca-e2c1775b91c0
Garcia-Araez, Nuria, Climent, Victor, Herrero, Enrique, Feliu, Juan M. and Lipkowski, Jacek
(2005)
Determination of the Gibbs excess of H adsorbed at a Pt(111) electrode surface in the presence of co-adsorbed chloride.
Journal of Electroanalytical Chemistry, 582 (1-2), .
(doi:10.1016/j.jelechem.2005.01.031).
Abstract
The thermodynamics of the so-called perfectly polarizable electrode was employed to analyze the total charge densities for a Pt(1 1 1) electrode in a series of solutions (0.1 - x) M HClO4 + x M KClO4 + 2.5 × 10-3 M NaCl with a constant ionic strength and variable pH. The total charge densities were calculated by integration of cyclic voltammetry curves. The adsorption of chloride present in the electrolyte blocked hydrogen and OH adsorption at potentials 0.3 < E < 0.7 V (SHE). Consequently, the differential capacity, charge density and surface energy become pH independent in that potential range providing pH independent integration constants for the integration of CVs. For E < 0.3 V (SHE), a complete thermodynamic analysis using charge and potential as independent variables has been performed. The Gibbs excesses of adsorbed hydrogen were determined without a need to introduce any arbitrary correction for the so-called charging of the double layer and further assumptions about the charge number per adsorbed species. Using the thermodynamic method, the charge numbers at a constant potential (electrosorption valency) and at a constant chemical potential (reciprocal of the Esin–Markov coefficient) for adsorbed hydrogen were calculated using the Gibbs excess data. The charge numbers are equal to ~1, indicating that the adsorbed species is a totally discharged hydrogen atom. For 0.1 M HClO4 + 2.5 × 10-3 M NaCl solution Gibbs excesses of both hydrogen and chloride were determined. In a narrow potential range 0.2 < E < 0.3 V (SHE) chloride and hydrogen atoms are simultaneously adsorbed at the electrode surface. We have demonstrated that their adsorption has a competitive character
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Published date: 15 August 2005
Organisations:
Electrochemistry
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Local EPrints ID: 346016
URI: http://eprints.soton.ac.uk/id/eprint/346016
ISSN: 1572-6657
PURE UUID: ac59a2fe-d706-4d11-9517-b6ed118fddf6
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Date deposited: 07 Dec 2012 14:33
Last modified: 15 Mar 2024 03:46
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Author:
Victor Climent
Author:
Enrique Herrero
Author:
Juan M. Feliu
Author:
Jacek Lipkowski
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