Determination of paracetamol on electrochemically reduced graphene oxide–antimony nanocomposite modified pencil graphite electrode using adsorptive stripping differential pulse voltammetry
Abstract
A simple, highly sensitive, accurate, and low-cost electrochemical sensor was developed for
the determination of over-the-counter painkiller, paracetamol (PC). The enhanced sensing capabilities
of the developed sensor were fabricated by the single-step modification of disposable pencil graphite
electrodes (PGEs) with the simultaneous electrochemical reduction in graphene oxide and antimony
(II) salts. For this purpose, an electrochemically reduced graphene oxide–antimony nanoparticle
(ERGO-SbNP) nanocomposite material was prepared by trapping metallic nanoparticles between
individual graphene sheets in the modification of PGEs.