A model for the Heyrovsky reaction as the second step in hydrogen evolution

A model for the Heyrovsky reaction as the second step in hydrogen evolution

On a number of electrodes the second step in hydrogen evolution is the reaction of a proton with an adsorbed hydrogen intermediate to form a molecule, which is also known as the Heyrovsky reaction. We have developed a model Hamiltonian for this reaction, which for concrete applications requires exte...

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Veröffentlicht in:Physical chemistry chemical physics : PCCP 2011-04, Vol.13 (15), p.6992-7000
Hauptverfasser: Santos, E, Hindelang, P, Quaino, P, Schmickler, W
Format: Artikel
Sprache:eng
Schlagworte:
Bonding
Electrodes
Electron transfer
Hydrogen atoms
Hydrogen evolution
Mathematical models
Physical chemistry
Saddle points
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Zusammenfassung:On a number of electrodes the second step in hydrogen evolution is the reaction of a proton with an adsorbed hydrogen intermediate to form a molecule, which is also known as the Heyrovsky reaction. We have developed a model Hamiltonian for this reaction, which for concrete applications requires extensive calculations on the basis of density-functional theory. Explicit results are presented for a Ag(111) electrode. The rate-determining step is electron transfer to the proton that approaches the electrode from the solution. At the saddle point for this reaction the adsorbed hydrogen atom has moved a little away from the surface in order to reduce the repulsion of the product molecule. Electron transfer to the proton occurs when the distance between the two particles is close to the bond distance of the hydrogen molecule.
ISSN:1463-9076
1463-9084
DOI:10.1039/c0cp02748k