GSMIS

Publication

Journal Publication

Title of Article

A facile nonenzymatic electrochemical sensor based on copper oxide nanoparticles deposited on activated carbon for the highly sensitive detection of methyl parathion

Date of Acceptance

24 October 2021

Journal

Title of Journal

Journal of Applied Electrochemistry

Standard

SCOPUS

Institute of Journal

Springer

ISBN/ISSN

0021-891X

Volume

2021

Issue

Month

October

Year of Publication

2021

Page

Abstract

A facile and novel nonenzymatic electrochemical sensor for the detection of methyl parathion (MP) was developed using a glassy carbon electrode modifed by copper oxide nanoparticle-deposited waste cofee grounds activated carbon (CuONPs/AC/GCE). Activated carbon from waste cofee grounds was prepared using chemical activation method by potassium hydroxide (KOH) and thermal activation with high power microwave-assisted hydrothermal technique from in-house microwave furnace. This method carried out at a lower temperature than which of physical process, providing a high surface area, porosity, and good conductivity. The CuO-NPs on CuO-NPs/AC/GCE can easily bind MP, owing to the high afnity between the Cu on electrode and the thionate sulfur (P=S) or oxon (P=O) groups of MP, resulting in an inhibited redox reaction of Cu and a decrease in the redox peak current of Cu. The nonenzymatic electrochemical sensor, CuO-NPs/AC/GCE, showed excellent electrochemical catalytic activity for the determination of MP compared to that of AC/GCE, CuO-NPs/GCE, and bare GCE by diferential pulse voltammetry (DPV). The anodic (Epa) and cathodic peak potentials (Epc) of CuO-NPs on the modifed electrode were 0.25 V and − 0.45 V, respectively. The linear ranges were 50–1500 µg L−1, with a low detection limit of 2.42 µg L−1. In addition to being environmentally friendly, the CuO-NPs/AC/GCE sensor demonstrated high selectivity and sensitivity, good stability, and low cost. Further, the proposed nonenzymatic electrochemical sensor has potential applicability for MP detection in soil samples and gave recoveries in the range of 80.18–105.48%.

Keyword

Methyl parathion · Activated carbon · Copper oxide nanoparticles · Nonenzymatic electrochemical sensor

Author

615020092-8	Miss NARUMON WANNASRI [Main Author]
	Science Master's Degree

Reviewing Status

มีผู้ประเมินอิสระ

Status

ตีพิมพ์แล้ว

Level of Publication

นานาชาติ

citation

false

Part of thesis

true

Attach file

Citation