Fabrication of a novel electrochemical sensing platform for voltammetric screening of prednisolone as a doping agent in sport.

This work reports the design and manufacturing of a new electrochemical sensing platform for the monitoring of prednisolone (PE) steroid in physiological fluids. To reach this, palladium (Pd) nanoparticles were successfully deposited on carbon nitride (CN) nanosheets using chemical reduction approach. The prepared CN-Pd hybrid material along with an ionic liquid (IL, 1-ethyl-3-methylimidazolium tetrafluoroborate) were employed for modification of a low expense carbon paste electrode (CPE). The CN-Pd-IL modified CPE was electrochemically characterized to ensure the electrochemical performance towards PE reduction. The important parameters affecting the performance of the PE sensor including CN-Pd dosage and pH of buffer were studied and optimized. The CN-Pd-IL modified CPE illustrated a wide linear response in a PE concentration range of 0.6 nM to 60 nM using SWV methodology. The limit of detection (based on S/N=3) was 0.1 nM at optimal conditions. The suggested PE sensor illustrated the satisfactory reproducibility and good matrix-effectless character. In addition, the CN-Pd-IL modified CPE was facilely used for the electrochemical measuring of PE in the serum samples of athletes with high recovery values (97.6%-102.4%). The proposed methodology can be employed for the sensitive, selective and fast detection of PE. [Display omitted] • Novel electrochemical sensing platform for voltammetric screening of prednisolone was proposed. • The suggested sensor illustrated the matrix-effectless character with admissible reproducibility. • The modified electrode was successfully utilized for prednisolone analysis in serum samples of athletes. [ABSTRACT FROM AUTHOR]