Electrochemical and infrared spectroscopy studies of 4-mercaptobenzoic acid SAMs on gold surfaces

Cyclic voltammetry and Fourier transform infrared external reflection spectroscopy (FTIR-ERS) have been used to study self-assembled monolayers of 4-mercaptobenzoic acid (4-MBA) formed on gold surfaces. Electrochemical studies demonstrate that the carboxylic acid head group of 4-MBA can be protonate...

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Published in:Electrochimica acta 2008-10, Vol.53 (23), p.6759-6767
Main Authors: Rosendahl, Scott M., Burgess, Ian J.
Format: Article
Language:English
Subjects:
4-Mercaptobenzoic acid
Acetic acid
Calcium ion binding
Chemistry
Electrochemistry
Electrodes: preparations and properties
Exact sciences and technology
Fourier transform infrared external reflection spectroscopy
General and physical chemistry
Hydrogen bonding
Ion-exchange
Other electrodes
Polycrystalline gold
Protonation–deprotonation
Self-assembled monolayers
Voltammetry
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description Cyclic voltammetry and Fourier transform infrared external reflection spectroscopy (FTIR-ERS) have been used to study self-assembled monolayers of 4-mercaptobenzoic acid (4-MBA) formed on gold surfaces. Electrochemical studies demonstrate that the carboxylic acid head group of 4-MBA can be protonated or deprotonated by application of an electric potential to the gold substrate. This effect is highly dependent on the pH of the electrolyte in accordance with models previously developed for acid-terminated monolayers. The voltammetric response decreases with prolonged exposure to moderate strength electrolytes as cations exchange with the acid terminus. The formation of either sodium or potassium carboxylate salts occurs relatively slowly but the presence of Ca 2+ ions in the electrolyte immediately quenches the electric-field driven protonation/deprotonation process. The latter process leads to a very stable carboxylate salt film, which cannot be reprotonated by prolonged exposure to the pure incubating solvent. FTIR-ERS studies demonstrate that the observed electrochemical response of the 4-MBA SAMs is related to the degree of hydrogen bonding in the monolayer film. The addition of ultrapure acetic acid to the incubating solution leads to a film with reduced levels of intermolecular hydrogen bonding between MBA molecules. Electrochemically, the voltammetric peaks associated with the protonation/depronation process are greatly attenuated when the self-assembled films are formed from solutions containing 4-MBA and acetic acid.
doi_str_mv 10.1016/j.electacta.2007.11.020
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The addition of ultrapure acetic acid to the incubating solution leads to a film with reduced levels of intermolecular hydrogen bonding between MBA molecules. 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subjects 4-Mercaptobenzoic acid
Acetic acid
Calcium ion binding
Chemistry
Electrochemistry
Electrodes: preparations and properties
Exact sciences and technology
Fourier transform infrared external reflection spectroscopy
General and physical chemistry
Hydrogen bonding
Ion-exchange
Other electrodes
Polycrystalline gold
Protonation–deprotonation
Self-assembled monolayers
Voltammetry
title Electrochemical and infrared spectroscopy studies of 4-mercaptobenzoic acid SAMs on gold surfaces
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