Determination of the entropy of formation of the Pt(111)? perchloric acid solution interface. Estimation of the entropy of adsorbed hydrogen and OH species
Determination of the entropy of formation of the Pt(111)? perchloric acid solution interface. Estimation of the entropy of adsorbed hydrogen and OH species
The entropy of formation of the interface between a Pt(111) electrode and a 0.1-M HClO4 solution is calculated here for the first time from the temperature dependence of total charge vs potential curves following a thermodynamic analysis based on the electrocapillary equation. From this quantity, the absolute entropies of specifically adsorbed species (hydrogen and OH) can be estimated. The present method is an alternative treatment of data that overcomes some of the limitations involved in the approach that uses a generalized isotherm. However, it requires additional experimental data: the temperature coefficient of the potential of zero total charge of the working electrode and the temperature coefficient of the reference electrode. Comparison of the results obtained by both approaches shows that, for hydrogen adsorption, the agreement is reasonable, but the differences are larger for OH adsorption, thus showing the limitations inherent in the treatment based on the generalized isotherm
387-398
Garcia-Araez, Nuria
9358a0f9-309c-495e-b6bf-da985ad81c37
Climent, Victor
c3ecab58-edb5-4055-8fa0-c0aef0fc60a4
Feliu, Juan M.
f2a5301a-2886-4f27-b614-99a74a0a9a28
2008
Garcia-Araez, Nuria
9358a0f9-309c-495e-b6bf-da985ad81c37
Climent, Victor
c3ecab58-edb5-4055-8fa0-c0aef0fc60a4
Feliu, Juan M.
f2a5301a-2886-4f27-b614-99a74a0a9a28
Garcia-Araez, Nuria, Climent, Victor and Feliu, Juan M.
(2008)
Determination of the entropy of formation of the Pt(111)? perchloric acid solution interface. Estimation of the entropy of adsorbed hydrogen and OH species.
Journal of Solid State Electrochemistry, 12 (4), .
(doi:10.1007/s10008-007-0417-y).
Abstract
The entropy of formation of the interface between a Pt(111) electrode and a 0.1-M HClO4 solution is calculated here for the first time from the temperature dependence of total charge vs potential curves following a thermodynamic analysis based on the electrocapillary equation. From this quantity, the absolute entropies of specifically adsorbed species (hydrogen and OH) can be estimated. The present method is an alternative treatment of data that overcomes some of the limitations involved in the approach that uses a generalized isotherm. However, it requires additional experimental data: the temperature coefficient of the potential of zero total charge of the working electrode and the temperature coefficient of the reference electrode. Comparison of the results obtained by both approaches shows that, for hydrogen adsorption, the agreement is reasonable, but the differences are larger for OH adsorption, thus showing the limitations inherent in the treatment based on the generalized isotherm
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Published date: 2008
Organisations:
Electrochemistry
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Local EPrints ID: 345808
URI: http://eprints.soton.ac.uk/id/eprint/345808
ISSN: 1432-8488
PURE UUID: c64e2c83-fbb5-4db6-a47e-921638783c59
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Date deposited: 30 Nov 2012 15:06
Last modified: 15 Mar 2024 03:46
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Author:
Victor Climent
Author:
Juan M. Feliu
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