Graphene hybrid nanostructures based screen-printed sensor employed in the glyphosate electrocatalytic determination in the real sample

Tiba D.Y.; Canevari T.C.

Graphene hybrid nanostructures based screen-printed sensor employed in the glyphosate electrocatalytic determination in the real sample

Tipo

Artigo

Data de publicação

2025

Periódico

Materials Research Bulletin

Citações (Scopus)

1

Autores

Tiba D.Y.
Canevari T.C.

Resumo

© 2024This work describes the synthesis characterization and application of innovative CuONPs/GO/CDot(N) nanostructures obtained by direct reaction between graphene oxide, nitrogen-doped carbon quantum dots (CDot(N)), and copper (II) nitrate. The hybrid nanostructures were characterized by spectroscopies methods such as Raman, ultraviolet-visible (UV-Vis), and X-ray photoelectron spectroscopies (XPS), X-ray diffraction (XRD), High-resolution transmission electron microscopy (HR-TEM), and electrochemical techniques. A sensitive electrochemical sensor to determine glyphosate in the real sample has been constructed by a printed carbon electrode modified with CuONPs/GO/CDot(N) nanostructures. Determination of the pesticide glyphosate (glyph) has been performed in phosphate buffer solution (PBS) at pH 5.5 and in real water samples by differential pulse voltammetry technique (DPV). The printed carbon electrode modified with CuONPs/GO/CDot(N) nanostructures presented a detection limit of 1.97 nmol.L−1 (0.3 µg.L−1). The modified, printed carbon electrode determined glyphosate in real samples, with recovery ranging from 95.2 % to 114%. Other pesticides didn't present significant interference in the glyphosate determination.

Assuntos Scopus

Carbon electrode , Carbon quantum dots , Copper oxide nanoparticles , Electrochemicals , Glyphosates , Graphene oxides , Graphenes , Hybrid nanostructures , Real samples , Screen-printed