Simultaneous detection of Δ9-tetrahydrocannabinol (THC) and cannabidiol (CBD) is crucial for the analysis of seized materials and cannabis-based preparations. To address this need, a simple, rapid, and selective electrochemical method was developed for the preliminary detection and quantification of both cannabinoids. The proposed method employs unmodified carbon screen-printed electrodes (carbon-SPEs) in a strongly alkaline medium (0.5 mol L -1 NaOH solution). The electrochemical behaviors of THC and CBD were investigated over a wide range of pH values, enabling a simultaneous detection with distinct peak potentials observed on carbon-SPE ( vs Ag). THC exhibited a single irreversible oxidation process (O 1T ) on the carbon-SPE surface, whereas CBD showed, for the first time, five well-defined electrochemical processes, with two reduction processes (R 1C and R 2C ) and three oxidation processes (O 1C, O 2C and O 3C ). Square wave voltammetric technique was optimized for the simultaneous determination of THC and CBD using their oxidation processes at O 1T and O 3C on carbon-SPE, with limits of detection of 0.09 μmol L -1 and 2.72 μmol L -1 , respectively. Moreover, consistent electrochemical responses were obtained using either the same (N=5) or different SPEs (N=3), with RSDs lower than 5.6% and 2.0 % for peak currents and peak potentials, respectively. Method applicability was confirmed by analyzing thirty-five (35) real seized samples and seven cannabis-based products, showing good agreement with GC-MS results. Addition-recovery studies using real seized samples yielded values close to 100 % for both analytes: 102 ± 2 % for O 1T (THC) and 103.3 ± 0.8 % for O 3C (CBD). These findings highlight the method’s potential as a reliable, low-cost, and field-deployable tool for forensic screening and quality control in cannabis-derived products. • Simple and rapid voltammetric method for simultaneous THC and CBD detection and quantification • Altered electrochemistry of CBD on screen-printed carbon electrodes in basic medium • Semi-synthetic cannabinoids detected without overlapping CBD oxidation peaks • Method validated on 35 seized samples and 7 cannabis-related products • Reliable, low-cost screening tool for forensic and quality-control applications
Brandão et al. (Sun,) studied this question.