Eletrodos modificados com monocamadas auto-organizadas de alcanotióis: uma abordagem sobre a transferência eletrônica / Electrode surface modified with alkanothiols self-assembled monolayers: an electron transfer approach

AUTOR(ES)
DATA DE PUBLICAÇÃO

2008

RESUMO

The modification of electrode surfaces with self-assembled monolayer (SAM) is one of the top subjects in electrochemistry and electroanalysis, mainly due to its much enhanced biocompatibility. In this study, the focuses are centered in the electron transfer through SAMs of alkanothiols assembled onto gold electrode surfaces. In order to investigate the electrochemical behavior of the redox couple [Fe(CN)6]3-/[Fe(CN)6]4-, Au surfaces were modified with SAMs of long and short carbon chains alkanethiols, as well as with their mixtures. In this way, it was possible to observe that surfaces modified with monolayers of 2, 3 or 4 carbon atoms in the chain allowed electrons transfer to occur through the SAM, generating a voltammetric profile very similar to those observed on bare Au surfaces. With longer carbon chains (up to 11 carbon atoms), the electron transfer was totally blocked and none voltammetric profile was observed. Aiming to explain the total blockage of the surface with long chain alkanethiols modifications, the surface excess of molecules were measured by the voltammetric charge required for their reductive desorption. It was always observed surface excesses near to 9.0x10-10 mol/cm2, which is related to a full coverage of the active sites on the surface, thus justifying the absence of electrochemical response. The surface modification with mixtures of long and short carbon chains monolayers promoted very interesting voltammetric responses, as long as the short chains contain less than 4 carbon atoms. In this case, sigmoidal voltammetric responses were obtained, very similar to those observed for ultramicroelectrodes (UMEs). Such effect was associated to the formation of UMEs arrays in the electrode surface. The radius and separation of each UME in this surface array was evaluated as 42 and 221 µm, respectively. A value of 60 UMEs were found for the entire surface. These UMEs were formed by the short chain molecules totally walled by the long chain ones (mercaptoundecanoic acid molecules). Such behavior reinforces the proposition of electron transference through the short chain alkanethiol layer and surface blockage by the long chain one. All the voltammetric experiments were followed by electrochemical impedance spectroscopic analysis which allowed were determined the charge transfer resistance for each modification. Very large values were determined for long carbon chains while for the short chains much smaller resistance values were found, as expected by the voltammetric behavior. Finally, the assembling of each monolayer was followed by quartz crystal microbalance measurements. By the electrode mass variation with time of immersion in a solution containing the alkanethiol of interest it was possible to observe several steps of adsorption/desorption, as the organization of the monolayer increases. The theoretical values for mass variation for a full monolayer in the electrochemical surfaces were found to be in highly agreement with the experimental ones, measured in long time experiments (after approximately 2 hours of immersion).

ASSUNTO(S)

eletrodos modificados modified electrodes alkanothiols self-assembled monolayers alcanotióis monocamadas auto-organizadas

ACESSO AO ARTIGO

Documentos Relacionados