Electrochemical determination of mesotrione and its degradation products on glassy carbon electrode

A simple, fast and sensitive analytical method was developed for the quantification of herbicide mesotrione (MES) and its degradation products: 4-(methylsulfonyl)-2-nitrobenzoic acid (MNBA) and 2-amino-4-(methylsulfonyl) benzoic acid (AMBA) using differential pulse voltammetry (DPV). Voltammetric measurements were performed using glassy carbon electrode (GCE). Potential range, pH of the electrolyte and the scan rate were optimised to achieve the lowest detection limits of analytes. The optimal conditions were obtained in a Britton–Robinson (BR) buffer at pH 4.0 for MNBA and at pH 6.0 for MES and AMBA, with the scan rate 0.08 V/s. The potential V for (1) nitro and carbonyl groups of MES, (2) nitro group of MNBA and (3) amino group of AMBA, obtained under optimised conditions, was plotted as a function of a peak current (I). The I(V) dependencies were measured for the following concentration ranges: 0.5–5.0 µM for the nitro group of MES and MNBA, 0.75–5.0 µM and 0.50–8.5 µM for the carbonyl groups of MES, and 0.25–8.5 µM for amino group of AMBA; whereas, the limit of detection was in range 0.07–0.23 µM (20–80 µg/L). The proposed method is the first one that allows the determination of both MES and its degradation products. The practical applicability of these newly developed voltammetric methods was verified by direct determination of MES and its degradation products in model samples of drinking and surface water.