Mean field approach applied to surface deposition on a modified electrode

In this work we study the deposition phenomena on a modified electrode in the framework of the mean field theory. The electrode surface is modified by irreversible deposition of impurities which can block a fraction of the adsorption sites. Then, an electroactive species is allowed to adsorb on the accessible sites, transferring electric charge and generating a current that can be calculated and measured. Nearest-neighbor lateral interactions are considered both between electroactive particles and between particles and impurities. A modified Bragg-Williams theoretical approach considers both the blocking effects of impurities and the lateral interactions, through different concentrations of impurities and particles. The analysis is based on the study of adsorption isotherms and voltammograms, considering different interaction energies and impurity concentrations. The potentialities and limitations of the analytical approximation are discussed by comparing theoretical predictions with Monte Carlo simulations and experimental measurements in which artificial clay represents the impurity and a [Fe(CN)(6)](4) redox probe is the species that transfers the charge.

Automated summary

In this study, deposition phenomena on a modified electrode were investigated within the framework of mean field theory. The effects of impurities and lateral interactions between particles were considered, with analysis based on adsorption isotherms and voltammograms. The potential and limitations of the analytical approximation were discussed by comparing theoretical predictions with Monte Carlo simulations and experimental measurements.