Abstract
PEDOT:PSS modified electrodes were prepared via one-step electropolymerization and employed as electrochemical sensor for the detection of nitrophenols and organophosphorus compounds. The electrocatalytic behavior of PEDOT towards the redox reactions of the nitrophenol isomers were studied by electrochemical and spectroscopy techniques and a detection mechanism is proposed. The detection of the isomers was possible by the analysis of the oxidation peaks of the intermediates generated by the direct reduction of the nitro groups and the analytical performance was evaluated in terms of the individual analysis of each isomer and in a multi-component solution. It was found that the simultaneous detection of the isomers is feasible, although the quantification is only possible of 3- and 4-NPh in the multi-component sample. In addition, hazardous organophosphate pollutants such as diethyl 2,4-dinitrophenyl phosphate (DEDNPP) and diethyl 4-nitrophenyl phosphate (Paraoxon) were also detected by the study of the electrochemical reduction of the nitro groups presented and as observed by the nitrophenol molecules and some analytical parameters were analyzed. The results presented herein suggest the construction of a rapid and straightforward electrochemical sensor for these important pollutants, in a micromolar detection.
Published Version
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call