A Sensitive Hydroquinone Amperometric Sensor Based on a Novel Palladium Nanoparticle/Porous Silicon/Polypyrrole-Carbon Black Nanocomposite

Exposure to hydroquinone (HQ) can cause various health hazards and negative impacts on the environment. Therefore, we developed an efficient electrochemical sensor to detect and quantify HQ based on palladium nanoparticles deposited in a porous silicon-polypyrrole-carbon black nanocomposite (Pd@PSi−...

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Autores principales: Alrashidi, Abdullah, El-Sherif, Anas M., Ahmed, Jahir, Faisal, M., Alsaiari, Mabkhoot, Algethami, Jari S., Moustafa, Mohamed I., Abahussain, Abdulaziz A. M., Harraz, Farid A.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9953257/
https://www.ncbi.nlm.nih.gov/pubmed/36831944
http://dx.doi.org/10.3390/bios13020178
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author Alrashidi, Abdullah
El-Sherif, Anas M.
Ahmed, Jahir
Faisal, M.
Alsaiari, Mabkhoot
Algethami, Jari S.
Moustafa, Mohamed I.
Abahussain, Abdulaziz A. M.
Harraz, Farid A.
author_facet Alrashidi, Abdullah
El-Sherif, Anas M.
Ahmed, Jahir
Faisal, M.
Alsaiari, Mabkhoot
Algethami, Jari S.
Moustafa, Mohamed I.
Abahussain, Abdulaziz A. M.
Harraz, Farid A.
author_sort Alrashidi, Abdullah
collection PubMed
description Exposure to hydroquinone (HQ) can cause various health hazards and negative impacts on the environment. Therefore, we developed an efficient electrochemical sensor to detect and quantify HQ based on palladium nanoparticles deposited in a porous silicon-polypyrrole-carbon black nanocomposite (Pd@PSi−PPy−C)-fabricated glassy carbon electrode. The structural and morphological characteristics of the newly fabricated Pd@PSi−PPy−C nanocomposite were investigated utilizing FESEM, TEM, EDS, XPS, XRD, and FTIR spectroscopy. The exceptionally higher sensitivity of 3.0156 μAμM(−1) cm(−2) and a low limit of detection (LOD) of 0.074 μM were achieved for this innovative electrochemical HQ sensor. Applying this novel modified electrode, we could detect wide-ranging HQ (1–450 μM) in neutral pH media. This newly fabricated HQ sensor showed satisfactory outcomes during the real sample investigations. During the analytical investigation, the Pd@PSi−PPy−C/GCE sensor demonstrated excellent reproducibility, repeatability, and stability. Hence, this work can be an effective method in developing a sensitive electrochemical sensor to detect harmful phenol derivatives for the green environment.
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spelling pubmed-99532572023-02-25 A Sensitive Hydroquinone Amperometric Sensor Based on a Novel Palladium Nanoparticle/Porous Silicon/Polypyrrole-Carbon Black Nanocomposite Alrashidi, Abdullah El-Sherif, Anas M. Ahmed, Jahir Faisal, M. Alsaiari, Mabkhoot Algethami, Jari S. Moustafa, Mohamed I. Abahussain, Abdulaziz A. M. Harraz, Farid A. Biosensors (Basel) Article Exposure to hydroquinone (HQ) can cause various health hazards and negative impacts on the environment. Therefore, we developed an efficient electrochemical sensor to detect and quantify HQ based on palladium nanoparticles deposited in a porous silicon-polypyrrole-carbon black nanocomposite (Pd@PSi−PPy−C)-fabricated glassy carbon electrode. The structural and morphological characteristics of the newly fabricated Pd@PSi−PPy−C nanocomposite were investigated utilizing FESEM, TEM, EDS, XPS, XRD, and FTIR spectroscopy. The exceptionally higher sensitivity of 3.0156 μAμM(−1) cm(−2) and a low limit of detection (LOD) of 0.074 μM were achieved for this innovative electrochemical HQ sensor. Applying this novel modified electrode, we could detect wide-ranging HQ (1–450 μM) in neutral pH media. This newly fabricated HQ sensor showed satisfactory outcomes during the real sample investigations. During the analytical investigation, the Pd@PSi−PPy−C/GCE sensor demonstrated excellent reproducibility, repeatability, and stability. Hence, this work can be an effective method in developing a sensitive electrochemical sensor to detect harmful phenol derivatives for the green environment. MDPI 2023-01-23 /pmc/articles/PMC9953257/ /pubmed/36831944 http://dx.doi.org/10.3390/bios13020178 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Alrashidi, Abdullah
El-Sherif, Anas M.
Ahmed, Jahir
Faisal, M.
Alsaiari, Mabkhoot
Algethami, Jari S.
Moustafa, Mohamed I.
Abahussain, Abdulaziz A. M.
Harraz, Farid A.
A Sensitive Hydroquinone Amperometric Sensor Based on a Novel Palladium Nanoparticle/Porous Silicon/Polypyrrole-Carbon Black Nanocomposite
title A Sensitive Hydroquinone Amperometric Sensor Based on a Novel Palladium Nanoparticle/Porous Silicon/Polypyrrole-Carbon Black Nanocomposite
title_full A Sensitive Hydroquinone Amperometric Sensor Based on a Novel Palladium Nanoparticle/Porous Silicon/Polypyrrole-Carbon Black Nanocomposite
title_fullStr A Sensitive Hydroquinone Amperometric Sensor Based on a Novel Palladium Nanoparticle/Porous Silicon/Polypyrrole-Carbon Black Nanocomposite
title_full_unstemmed A Sensitive Hydroquinone Amperometric Sensor Based on a Novel Palladium Nanoparticle/Porous Silicon/Polypyrrole-Carbon Black Nanocomposite
title_short A Sensitive Hydroquinone Amperometric Sensor Based on a Novel Palladium Nanoparticle/Porous Silicon/Polypyrrole-Carbon Black Nanocomposite
title_sort sensitive hydroquinone amperometric sensor based on a novel palladium nanoparticle/porous silicon/polypyrrole-carbon black nanocomposite
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9953257/
https://www.ncbi.nlm.nih.gov/pubmed/36831944
http://dx.doi.org/10.3390/bios13020178
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