Associative and Proton Transfer Effects on the Voltammetric Behaviour of Chemically Grafted Films Bearing Nitrophenyl Groups

The spontaneous decomposition of 4‐nitrophenyldiazonium tetrafluoroborate in acetonitrile solution was used to modify glassy carbon electrodes with films bearing nitrophenyl groups. The modification procedure was performed by dipping non‐connected electrodes into the nitrophenyldiazonium solution. When these modified electrodes were analyzed by cyclic voltammetry in acetonitrile containing traces of water over a wide potential scale, only one reduction wave and two oxidation peaks were observed, which is atypical considering the reversible behaviour of the reduction of nitrobenzene in acetonitrile, however in acetonitrile containing a lower concentration of water, two consecutive reduction waves appear in the same potential scale. The difference between both behaviours is consistent with the presence of water trapped into the film structure, which promotes electron and proton transfer reactions that yield nitrosobenzene as product in surface. The trapping of water inside the film structure is justified by the capability of the nitrophenyl groups to interact with water by surface hydrogen bonding interactions.