Development of a selective graphene quantum dots based electrochemical sensor for the determination of estrone in different water matrices and synthetic urine

Development of a selective graphene quantum dots based electrochemical sensor for the determination of estrone in different water matrices and synthetic urine

Abstract Estrone (E1) is associated with various health and environmental issues, necessitating the development of analytical methods for monitoring E1 in different matrices. In this context, the present study reports the development of a graphene quantum dot‐based electrode (GQD/E) to detect estron...

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Bibliographic Details
Published in:Electroanalysis (New York, N.Y.) Vol. 35; no. 9
Main Authors: dos Santos, José Felipe, de Oliveira S. Silva, Jonatas, Macedo, José Fernando, Júnior, José Carlos S., Almeida, Wandson S., Midori Sussuchi, Eliana
Format: Journal Article
Language:English
Published: 01-09-2023
Online Access:Get full text
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Summary:Abstract Estrone (E1) is associated with various health and environmental issues, necessitating the development of analytical methods for monitoring E1 in different matrices. In this context, the present study reports the development of a graphene quantum dot‐based electrode (GQD/E) to detect estrone in water and urine samples. Voltammetric measurements under optimized conditions demonstrated the feasibility of using GQD/E to detect estrone at trace levels in aqueous samples. Two linear dynamic ranges were obtained at concentrations from 0.05 to 10.00 μmol L −1 , with limit of detection (LOD) and quantification (LOQ) of 28.0 and 96.0 nmol L −1 , respectively. Furthermore, the LOD value obtained in this study is one of the lowest ever reported in the literature for the electrochemical determination of E1. The method response showed no significant variation in the current intensity of E1 in the presence of the 16 interferents. The recovery values obtained by using GQD/E to quantify estrone in fortified samples of seawater, tap water, wastewater and synthetic urine ranged from 95.9 to 108.1 %, indicating that the method presents highly sensitive for detecting estrone in aqueous matrices.
ISSN:1040-0397
1521-4109
DOI:10.1002/elan.202200563