Sensitive Amperometric Detection of Hydroxylamine at Electropolymerized Curcumin Film Coated Pencil Graphite Electrode

In this study, a sensitive electrochemical method was developed for the determination of hydroxylamine (H−A) using a curcumin‐modified pencil graphite electrode prepared with the electropolymerization of curcumin (PolyCurc‐PGE). The PolyCurc‐PGE showed a remarkable electrocatalytic response for H−A oxidation compared with bare PGE. Amperometric and cyclic voltammetric measurements were performed based on the electrocatalytic oxidation of H−A at PolyCurc‐PGE. Some parameters, such as monomer concentration, pH, and cycle number during electropolymerization, were optimized to obtain the best electrochemical response of the modified electrode towards H−A. Results show that the PolyCurc‐PGE gives a linear response towards H−A oxidation in the range from 0.50 μM to 500 μM (R2=0.9984). In addition, the sensitivity and detection limit (LOD) of PolyCurc‐PGE were found to be 5432 μA mM−1 cm2 and 0.15 μM H−A, respectively. The developed amperometric method was successfully applied to determine H−A in pharmaceutical and water samples, and acceptable results were obtained with high accuracy and precision. A schematic representation for the electro‐polymerization of curcumin (Curc) on the pencil graphite electrode for the sensitive choronoamperometric determination of hydroxylamine. The resulting electrode shows remarkable electrocatalytic behavior towards the oxidation of hydroxylamine.