Abstract

We could successfully fabricate a new composite of La(2)O(3 )nanoparticles@snowflake-like Cu2S nanostructure (La2O3 NP@SF-L Cu2S NS composite) for simultaneous detection of hydroquinone (HQ), catechol (CT), and resorcinol (RS). Field emission scanning electron microscope (FE-SEM), energy dispersive X-ray spectroscope (EDX) and X-ray diffraction (XRD) were used to characterize the constructed (La2O3 NP@SF-L Cu2S NS composites. The presence of HQ, CT and RS was simultaneously detected on the surface of modified (La2O3 NP@SF-L Cu2S NS composites because of unique properties such as large surface area, high electrical conductivity and potent catalytic activity, with the appearance of three distinctive peaks. Moreover, differential pulse voltammetric (DPV), chronoamperometry (CHA) and cyclic voltammetric (CV) were also employed to determine the electrocatalytic profile of CT, HQ and RS on electrode modified with the nanocomposite ((La2O3 NP@SF-L Cu2S NS/GCE). There was a significant elevation in the HQ, CT and RS oxidation currents when compared to those on both bare and modified electrodes. The peak of the catalytic current was directly variable based on the concentrations of HQ, CT and RS (0.66 to 266.6 mu M), respectively. Further, the limit of detection (LOD) was calculated to be 0.056 mu M, 0.058 mu M and 0.059 mu M for all HQ, CT and RS, respectively. Acceptable outcomes were achieved for the applicability of La2O3 NP@SF-L Cu2S NS/GCE in detecting HQ, CT and RS present in real specimens.