چکیده
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Current study describes fabrication of a novel voltammetric nanosensor for the synchronize quantifcation of acetaminophen (AC) and Acyclovir (ACV) by nanodiamond decorated dysprosium oxide and ionic liquid (IL) modifed carbon paste electrode (ND@Dy2O3-IL/CPE). Cyclic voltammetry (CV), choronoamperometry, electrochemical impedance spectroscopy (EIS) and square wave voltammetry (SWV) were utilized to evaluate the modifed electrodes. The oxidation peak currents of AC and ACV were increased effectively at the ND@Dy2O3-IL/ CPE against bare CPE. Results from response surface methodology (RSM) specifed that pH of 4.0 for phosphate buffer solutions (PBS), 0.07 g of ND@Dy2O3 and 0.01 g of IL in the ND@Dy2O3-IL/CPE and 0.04 V of pulse height consequences in the maximum electro-catalytic current. The limit of detection (LOD) and linear dynamics range (LDR) for the simultaneous measurement of AC and ACV were calculated to be 0.031 and 0.103–161.7 for AC and 0.029 μM, 0.097–116.6 μM for ACV, respectively. The catalytic rate constants were measured to be 5.6 × 105 and 4 × 106 cm3 mol− 1 s− 1 for AC and ACV, respectively. The ND@Dy2O3-IL/CPE displayed worthy stability, repeatability and extraordinary recovery. The practical using of the proposed ND@Dy2O3-IL/CPE was confrmed by quantifying the concentrations of AC and ACV in human serum sample.
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