Colorimetric nanosensor for the determination of glyphosate herbicide in aqueous solutions.
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Data
2023
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Resumo
Detection of pesticides depends on complex, time-consuming, and costly techniques
performed only in some regions of Brazil. Thus, this study aimed to develop a sensitive, portable, easy-
to-handle, and fast nanosensor to determine the presence of glyphosate in aqueous solutions. The
Co(OH)2 nanostructure was synthesized, and the kinetic study of the interaction with pesticide
glyphosate-based was performed. The Co(OH)2 nanostructures had a fast and effective interaction,
confirmed by UV-Visible spectroscopy. Through experimental planning, the process for obtaining
nanostructures has been optimized, and the nanostructures obtained were in a size range of 434.2 nm
with a hexagonal nanoplate structure. The lower limit of color-based glyphosate detection was 0.178
g
.L
-1
. It was possible to identify the herbicide in the water of the tomato and sugar cane rinse by the
change of the watercolor into pink. Although the samples showed low absorbance, the color change was
noticeable to the naked eye. Therefore, to synthesize a structure that allows identifying glyphosate in a
colorimetric way.
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Nanotechnology, Pesticide, Cobalt hydroxide, Sustainable agriculture
Citação
SILVA, C. R. da et al. Colorimetric nanosensor for the determination of glyphosate herbicide in aqueous solutions. Biointerface Research in Applied Chemistry, v. 13, edição 1, n. 73, 2023. Disponível em: <https://biointerfaceresearch.com/wp-content/uploads/2022/02/BRIAC131.073.pdf>. Acesso em: 06 jul. 2023.