Enhanced detection of lysergic acid diethylamide using Ehrlich reagent and screen-printed electrodes: A hybrid method for application in forensic analysis

Abstract

In forensic investigations, the presumptive identification of illicit substances, such as Lysergic Acid Diethylamide (LSD), is crucial. While the Ehrlich's colorimetric reagent (EHR) is commonly employed for LSD detection, producing a characteristic colour change, its lack of selectivity often leads to false-positive or misinterpreted results. Addressing this, we propose a novel method combining electrochemical detection with EHR, enhancing selectivity for LSD’s preliminary identification in forensic samples. This method utilizes a screen-printed carbon electrode (carbon-SPE) in a pH 12 phosphate buffer. We observed two irreversible oxidation processes for LSD at Epa= +0.35 V (Ox1) and + 0.65 V (Ox2), and for EHR at + 0.62 V and + 0.83 V (vs Ag/AgCl). The LSD + EHR combination displayed three distinct irreversible oxidation processes at + 0.35 V, +0.66 V, and + 0.86 V. This approach provides three analytical responses for LSD identification: (1) colour change post-EHR test; (2) voltammetric detection of LSD’s two oxidation processes on carbon-SPE; (3) decreased peak current of LSD at Ox1 post-reaction after EHR. Additionally, our method facilitates LSD quantification, exhibiting a low limit of detection (LOD) of 0.69 μmol/L, and consistent electrochemical responses (RSD < 3.0 %) using the same or different carbon-SPEs. Interference studies with other illicit drugs underscored the method’s reliability and selectivity in LSD detection. Moreover, addition-recovery studies on real seized samples approached 100 %, and LSD identification was corroborated by QTOF-LC/MS analyses. Therefore, combining voltammetry with carbon-SPE and EHR offers significant potential for a rapid, simple, and selective LSD screening test in forensic analysis.