Premonolayer Oxidation of Nanostructured Gold: An Important Factor Influencing Electrocatalytic Activity

The study of the electrodeposition of polycrystalline gold in aqueous solution is important from the viewpoint that in electrocatalysis applications ill-defined micro- and nanostructured surfaces are often employed. In this work, the morphology of gold was controlled by the electrodeposition potenti...

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Bibliographic Details
Published in:Langmuir 2009-03, Vol.25 (6), p.3845-3852
Main Authors: O’Mullane, Anthony P, Ippolito, Samuel J, Sabri, Ylias M, Bansal, Vipul, Bhargava, Suresh K
Format: Article
Language:English
Subjects:
Catalysis
Chemistry
Colloidal state and disperse state
Crystallization
Electrochemistry
Electrochemistry - methods
Electrochemistry: Charge Transfer, Electrocatalysis, Kinetics, Bioelectrochemistry
Exact sciences and technology
General and physical chemistry
Gold - chemistry
Hydrogen Peroxide - chemistry
Kinetics and mechanism of reactions
Metal Nanoparticles - chemistry
Methanol - chemistry
Microscopy, Electron, Scanning - methods
Nanoparticles - chemistry
Nanostructures - chemistry
Nanotechnology - methods
Oxygen - chemistry
Silver Compounds - chemistry
Surface physical chemistry
Surface Properties
Time Factors
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Summary:The study of the electrodeposition of polycrystalline gold in aqueous solution is important from the viewpoint that in electrocatalysis applications ill-defined micro- and nanostructured surfaces are often employed. In this work, the morphology of gold was controlled by the electrodeposition potential and the introduction of Pb(CH3COO)2·3H2O into the plating solution to give either smooth or nanostructured gold crystallites or large dendritic structures which have been characterized by scanning electron microscopy (SEM). The latter structures were achieved through a novel in situ galvanic replacement of lead with AuCl4 − (aq) during the course of gold electrodeposition. The electrochemical behavior of electrodeposited gold in the double layer region was studied in acidic and alkaline media and related to electrocatalytic performance for the oxidation of hydrogen peroxide and methanol. It was found that electrodeposited gold is a significantly better electrocatalyst than a polished gold electrode; however, performance is highly dependent on the chosen deposition parameters. The fabrication of a deposit with highly active surface states, comparable to those achieved at severely disrupted metal surfaces through thermal and electrochemical methods, does not result in the most effective electrocatalyst. This is due to significant premonolayer oxidation that occurs in the double layer region of the electrodeposited gold. In particular, in alkaline solution, where gold usually shows the most electrocatalytic activity, these active surface states may be overoxidized and inhibit the electrocatalytic reaction. However, the activity and morphology of an electrodeposited film can be tailored whereby electrodeposited gold that exhibits nanostructure within the crystallites on the surface demonstrated enhanced electrocatalytic activity compared to smaller smooth gold crystallites and larger dendritic structures in potential regions well within the double layer region.
ISSN:0743-7463
1520-5827
DOI:10.1021/la8039016