Electrochemical Sensing of Ascorbic Acid on ZnO-decorated Reduced Graphene Oxide Electrode

Abstract: A voltammetric sensor using differential pulse voltammetry (DPV) was developed for the detection of Vitamin C (ascorbic acid). The sensing platform was ZnO-decorated reduced graphene oxide on glassy carbon electrode (ZnO-RGO-GCE). Graphene oxide, synthesized by an improved Hummers method, was reduced with zinc powder under ultrasonication, followed by washing with HCl. X-ray diffraction and scanning electron microscopy showed ZnO nanoparticles decorating the reduced graphene oxide sheets. ZnO-RGO-GCE showed re… Show more

“…The fabricated sensor has shown better electro-catalytic oxidation of phenol and o-cresol in real wastewater sample. Moreover, the sensor has shown 4.1nM and 5.5nM detection limits for phenol and o-cresol respectively, for wide linear range of 0.01μM to 50 μM(Liu et al, 2016) Nithya, (2015). has reported the determination of ascorbic acid using zinc decorated graphene oxide based on glassy carbon electrode using differential pulse voltammetry.…”

Nanoremediation technologies for sustainable remediation of contaminated environments: Recent advances and challenges

“…The fabricated sensor has shown better electro-catalytic oxidation of phenol and o-cresol in real wastewater sample. Moreover, the sensor has shown 4.1nM and 5.5nM detection limits for phenol and o-cresol respectively, for wide linear range of 0.01μM to 50 μM(Liu et al, 2016) Nithya, (2015). has reported the determination of ascorbic acid using zinc decorated graphene oxide based on glassy carbon electrode using differential pulse voltammetry.…”

Nanoremediation technologies for sustainable remediation of contaminated environments: Recent advances and challenges

Graphene oxide based highly sensitive electrochemical sensor for detection of environmental pollutants and biomolecules

Screen Printed Electrochemical Sensor for Ascorbic Acid Detection Based on Nafion/Ionic Liquids/Graphene Composite on Carbon Electrodes