A highly explicit electrochemical biosensor for catechol detection in real samples based on copper-polypyrrole

Qasar Saleem; Sammia Shahid; Abdur Rahim; Majed A. Bajaber; Sana Mansoor; Mohsin Javed; Shahid Iqbal; Ali Bahadur; Samar O. Aljazzar; Rami Adel Pashameah; Samah A. AlSubhi; Eman Alzahrani; Abd El Aziem Farouk

doi:10.1039/d2ra07847c

A highly explicit electrochemical biosensor for catechol detection in real samples based on copper-polypyrrole

Qasar Saleem, Sammia Shahid, Abdur Rahim, Majed A. Bajaber, Sana Mansoor, Mohsin Javed, Shahid Iqbal, Ali Bahadur, Samar O. Aljazzar, Rami Adel Pashameah, Samah A. AlSubhi, Eman Alzahrani, Abd El Aziem Farouk

Research output: Journal Publication › Article › peer-review

3 Citations (Scopus)

Abstract

Catechol is a pollutant that can lead to serious health issues. Identification in aquatic environments is difficult. A highly specific, selective, and sensitive electrochemical biosensor based on a copper-polypyrrole composite and a glassy carbon electrode has been created for catechol detection. The novelty of this newly developed biosensor was tested using electrochemical techniques. The charge and mass transfer functions and partially reversible oxidation kinetics of catechol on the redesigned electrode surface were examined using electrochemical impedance spectroscopy and cyclic voltammetry scan rates. Using cyclic voltammetry, chronoamperometry, and differential pulse voltammetry, the characteristics of sensitivity (8.5699 μA cm⁻²), LOD (1.52 × 10⁻⁷ μM), LOQ (3.52 × 10⁻⁵ μM), linear range (0.02-2500 μM), specificity, interference, and real sample detection were investigated. The morphological, structural, and bonding characteristics were investigated using XRD, Raman, FTIR, and SEM. Using an oxidation-reduction technique, a suitable biosensor material was produced. In the presence of interfering compounds, it was shown that it was selective for catechol, like an enzyme.

Original language	English
Pages (from-to)	13443-13455
Number of pages	13
Journal	RSC Advances
Volume	13
Issue number	20
DOIs	https://doi.org/10.1039/d2ra07847c
Publication status	Published - 3 May 2023
Externally published	Yes

ASJC Scopus subject areas

General Chemistry
General Chemical Engineering

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10.1039/d2ra07847c

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Saleem, Q., Shahid, S., Rahim, A., Bajaber, M. A., Mansoor, S., Javed, M., Iqbal, S., Bahadur, A., Aljazzar, S. O., Pashameah, R. A., AlSubhi, S. A., Alzahrani, E., & Farouk, A. E. A. (2023). A highly explicit electrochemical biosensor for catechol detection in real samples based on copper-polypyrrole. RSC Advances, 13(20), 13443-13455. https://doi.org/10.1039/d2ra07847c

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title = "A highly explicit electrochemical biosensor for catechol detection in real samples based on copper-polypyrrole",

abstract = "Catechol is a pollutant that can lead to serious health issues. Identification in aquatic environments is difficult. A highly specific, selective, and sensitive electrochemical biosensor based on a copper-polypyrrole composite and a glassy carbon electrode has been created for catechol detection. The novelty of this newly developed biosensor was tested using electrochemical techniques. The charge and mass transfer functions and partially reversible oxidation kinetics of catechol on the redesigned electrode surface were examined using electrochemical impedance spectroscopy and cyclic voltammetry scan rates. Using cyclic voltammetry, chronoamperometry, and differential pulse voltammetry, the characteristics of sensitivity (8.5699 μA cm−2), LOD (1.52 × 10−7 μM), LOQ (3.52 × 10−5 μM), linear range (0.02-2500 μM), specificity, interference, and real sample detection were investigated. The morphological, structural, and bonding characteristics were investigated using XRD, Raman, FTIR, and SEM. Using an oxidation-reduction technique, a suitable biosensor material was produced. In the presence of interfering compounds, it was shown that it was selective for catechol, like an enzyme.",

author = "Qasar Saleem and Sammia Shahid and Abdur Rahim and Bajaber, {Majed A.} and Sana Mansoor and Mohsin Javed and Shahid Iqbal and Ali Bahadur and Aljazzar, {Samar O.} and Pashameah, {Rami Adel} and AlSubhi, {Samah A.} and Eman Alzahrani and Farouk, {Abd El Aziem}",

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doi = "10.1039/d2ra07847c",

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AU - Saleem, Qasar

AU - Shahid, Sammia

AU - Rahim, Abdur

AU - Bajaber, Majed A.

AU - Mansoor, Sana

AU - Javed, Mohsin

AU - Iqbal, Shahid

AU - Bahadur, Ali

AU - Aljazzar, Samar O.

AU - Pashameah, Rami Adel

AU - AlSubhi, Samah A.

AU - Alzahrani, Eman

AU - Farouk, Abd El Aziem

PY - 2023/5/3

Y1 - 2023/5/3

N2 - Catechol is a pollutant that can lead to serious health issues. Identification in aquatic environments is difficult. A highly specific, selective, and sensitive electrochemical biosensor based on a copper-polypyrrole composite and a glassy carbon electrode has been created for catechol detection. The novelty of this newly developed biosensor was tested using electrochemical techniques. The charge and mass transfer functions and partially reversible oxidation kinetics of catechol on the redesigned electrode surface were examined using electrochemical impedance spectroscopy and cyclic voltammetry scan rates. Using cyclic voltammetry, chronoamperometry, and differential pulse voltammetry, the characteristics of sensitivity (8.5699 μA cm−2), LOD (1.52 × 10−7 μM), LOQ (3.52 × 10−5 μM), linear range (0.02-2500 μM), specificity, interference, and real sample detection were investigated. The morphological, structural, and bonding characteristics were investigated using XRD, Raman, FTIR, and SEM. Using an oxidation-reduction technique, a suitable biosensor material was produced. In the presence of interfering compounds, it was shown that it was selective for catechol, like an enzyme.

AB - Catechol is a pollutant that can lead to serious health issues. Identification in aquatic environments is difficult. A highly specific, selective, and sensitive electrochemical biosensor based on a copper-polypyrrole composite and a glassy carbon electrode has been created for catechol detection. The novelty of this newly developed biosensor was tested using electrochemical techniques. The charge and mass transfer functions and partially reversible oxidation kinetics of catechol on the redesigned electrode surface were examined using electrochemical impedance spectroscopy and cyclic voltammetry scan rates. Using cyclic voltammetry, chronoamperometry, and differential pulse voltammetry, the characteristics of sensitivity (8.5699 μA cm−2), LOD (1.52 × 10−7 μM), LOQ (3.52 × 10−5 μM), linear range (0.02-2500 μM), specificity, interference, and real sample detection were investigated. The morphological, structural, and bonding characteristics were investigated using XRD, Raman, FTIR, and SEM. Using an oxidation-reduction technique, a suitable biosensor material was produced. In the presence of interfering compounds, it was shown that it was selective for catechol, like an enzyme.

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A highly explicit electrochemical biosensor for catechol detection in real samples based on copper-polypyrrole

Abstract

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