▎ 摘　　要

The rapid and ultralow detection of toxic organophosphate chemicals is a well-known, important step to reduce adverse health issues and yet also remains challenging. Here, we show electrochemical detection of methyl parathion (MP) using SnS2 nanosheets supported in a N, S-codoped reduced graphene oxide nanocomposite (SnS2/NS-RGO) in a neutral medium. The SnS2/NS-RGO is obtained by one-pot hydrothermal synthesis and modified onto a glassy carbon electrode (GCE) for electrochemical MP detection ability. The effects of SnS2 in NS-RGO showed a substantial reduction in the electron resistivity and increase in the acceleration of electron mobility. The cyclic voltammetry investigation of SnS2/NS-RGO to the MP detection showed a superior electrochemical detection property, while unmodified GCE, SnS2, and NS-RGO yielded unsatisfactory results. Thus, the SnS2/NS-RGO showed the best performance in terms of the sensitivity (4.033 mu A mu M-1 cm(-2)), limit of detection (0.17 nM), accuracy, and stability. In practical detection, the SnS2/NS-RGO sensing retained satisfactory recovery of MP added in river water and black grape samples.