Electrochemical immunosensor based on phages/CdSe nanoparticles as tracers to quantify clomazone in water

[Display omitted] •An disposable electrochemical immunosensor to quantify clomazone was developed.•Phage particles labelled with CdSe nanoparticles were used as a novel tracer.•A highly stable immunocomposite formed by monoclonal antibody/MWCNT was produced.•A 60-fold increase in sensitivity over EL...

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Bibliographic Details
Published in:Microchemical journal 2024-12, Vol.207, p.112073, Article 112073
Main Authors: Di Tocco, Aylén, Alberto Carrillo, Roodney, Alicia Zon, María, Valeria Porcal, Gabriela, Fernández, Héctor, Lassabe, Gabriel, González-Sapienza, Gualberto, Noel Robledo, Sebastián, Javier Arévalo, Fernando
Format: Article
Language:English
Subjects:
CdSe nanoparticles
Clomazone
Electrochemical immunosensor
Phages
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Summary:[Display omitted] •An disposable electrochemical immunosensor to quantify clomazone was developed.•Phage particles labelled with CdSe nanoparticles were used as a novel tracer.•A highly stable immunocomposite formed by monoclonal antibody/MWCNT was produced.•A 60-fold increase in sensitivity over ELISA was observed with the developed electrochemical immunosensor. Clomazone, an herbicide used worldwide, contaminates river and lakes, as well as surface and ground water. Therefore, there is great interest in developing new analytical tools for detecting environmental pollutants that are simple, highly sensitive and provide an extended analytical range. This work describes a disposable, highly sensitive and reproducible electrochemical immunosensor based on a non-competitive and enzyme-free immunoassay to quantify clomazone in water samples. A specific clone of recombinant phage particles labelled with CdSe nanoparticles, which form a trivalent complex with the clomazone/monoclonal antibody anti clomazone immuno-complex, was used as tracer. Clomazone was determined indirectly by square wave anodic stripping voltammetry through the anodic oxidation of Cd previously deposited in an accumulation step from the reduction of Cd2+ ions released from CdSe nanoparticles. An excellent analytical performance, with a limit of detection and a midpoint sensitivity of 0.038 ng mL−1 and 1.34 ng mL−1, respectively, were found. The limit of detection was 60-fold lower than the limit of detection obtained using the same antibody and un-label phage in an optimized non-competitive ELISA. The developed electrochemical immunosensor was successively used to assay undiluted river water samples, where very good recoveries percentages were reached. The very low limit of detection achieved with the electrochemical immunosensor allows it to be used as an important environmental tool for the determination of clomazone.
ISSN:0026-265X
DOI:10.1016/j.microc.2024.112073