Electrochemical sensor based on gum Arabic nanoparticles for rapid and in-situ detection of different heavy metals in real samples
The key solution to combat trace metal pollution and keep the environment, ecosystem, animals, and humans safe is earlier and rapid trace metal detection. For all these reasons, we propose in this work the design of a simple electrochemical sensor functionalized with green nanoparticles for electroc...
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| Published in: | Heliyon Vol. 10; no. 4; p. e26364 |
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| Main Authors: | , , , , , , |
| Format: | Journal Article |
| Language: | English |
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29-02-2024
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| Abstract | The key solution to combat trace metal pollution and keep the environment, ecosystem, animals, and humans safe is earlier and rapid trace metal detection. For all these reasons, we propose in this work the design of a simple electrochemical sensor functionalized with green nanoparticles for electrochemical detection of the fourth most dangerous heavy metal ions namely copper, zinc, lead, and mercury. The green nanoparticles are fabricated by a one-step, consisting of reducing platinum nanoparticles by a natural gum Arabic polymer. To guarantee the success of these nanoparticles' design, the nanoparticles have been characterized by Fourier-transform infrared spectroscopy FTIR, and thermogravimetric TGA techniques. While, for the electrochemical characterization, we have adopted cyclic voltammetry CV and electrochemical impedance spectroscopy EIS to control different steps of surface modification, and the differential pulse anodic stripping DPAS was monitored to follow up the electrochemical detection of different heavy metals.
have confirmed the good chemical and physical properties of the elaborated nanoparticles. As, the developed sensor showed a specific electrochemical response toward the heavy metal ions separately, with a lower limit of detection lower LOD than that recommended by the World Health Organization, in order of 9.6 ppb for Cu2+, 1.9 ppb for Zn2+, 0.9 ppb for Hg2+, and 4.2 ppb for Pb2+. Impressively, the elaborated sensor has demonstrated also high stability, outstanding sensitivity, and excellent analytical performance.
In addition, the elaborated analytical tool has been successfully applied to the determination of various heavy metal ions in real samples, reflecting then its promising prospect in practical application. |
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| AbstractList | The key solution to combat trace metal pollution and keep the environment, ecosystem, animals, and humans safe is earlier and rapid trace metal detection. For all these reasons, we propose in this work the design of a simple electrochemical sensor functionalized with green nanoparticles for electrochemical detection of the fourth most dangerous heavy metal ions namely copper, zinc, lead, and mercury. The green nanoparticles are fabricated by a one-step, consisting of reducing platinum nanoparticles by a natural gum Arabic polymer. To guarantee the success of these nanoparticles' design, the nanoparticles have been characterized by Fourier-transform infrared spectroscopy FTIR, and thermogravimetric TGA techniques. While, for the electrochemical characterization, we have adopted cyclic voltammetry CV and electrochemical impedance spectroscopy EIS to control different steps of surface modification, and the differential pulse anodic stripping DPAS was monitored to follow up the electrochemical detection of different heavy metals.
have confirmed the good chemical and physical properties of the elaborated nanoparticles. As, the developed sensor showed a specific electrochemical response toward the heavy metal ions separately, with a lower limit of detection lower LOD than that recommended by the World Health Organization, in order of 9.6 ppb for Cu2+, 1.9 ppb for Zn2+, 0.9 ppb for Hg2+, and 4.2 ppb for Pb2+. Impressively, the elaborated sensor has demonstrated also high stability, outstanding sensitivity, and excellent analytical performance.
In addition, the elaborated analytical tool has been successfully applied to the determination of various heavy metal ions in real samples, reflecting then its promising prospect in practical application. The key solution to combat trace metal pollution and keep the environment, ecosystem, animals, and humans safe is earlier and rapid trace metal detection. For all these reasons, we propose in this work the design of a simple electrochemical sensor functionalized with green nanoparticles for electrochemical detection of the fourth most dangerous heavy metal ions namely copper, zinc, lead, and mercury. The green nanoparticles are fabricated by a one-step, consisting of reducing platinum nanoparticles by a natural gum Arabic polymer. To guarantee the success of these nanoparticles' design, the nanoparticles have been characterized by Fourier-transform infrared spectroscopy FTIR, and thermogravimetric TGA techniques. While, for the electrochemical characterization, we have adopted cyclic voltammetry CV and electrochemical impedance spectroscopy EIS to control different steps of surface modification, and the differential pulse anodic stripping DPAS was monitored to follow up the electrochemical detection of different heavy metals. Results: have confirmed the good chemical and physical properties of the elaborated nanoparticles. As, the developed sensor showed a specific electrochemical response toward the heavy metal ions separately, with a lower limit of detection lower LOD than that recommended by the World Health Organization, in order of 9.6 ppb for Cu2+, 1.9 ppb for Zn2+, 0.9 ppb for Hg2+, and 4.2 ppb for Pb2+. Impressively, the elaborated sensor has demonstrated also high stability, outstanding sensitivity, and excellent analytical performance.In addition, the elaborated analytical tool has been successfully applied to the determination of various heavy metal ions in real samples, reflecting then its promising prospect in practical application. The key solution to combat trace metal pollution and keep the environment, ecosystem, animals, and humans safe is earlier and rapid trace metal detection. For all these reasons, we propose in this work the design of a simple electrochemical sensor functionalized with green nanoparticles for electrochemical detection of the fourth most dangerous heavy metal ions namely copper, zinc, lead, and mercury. The green nanoparticles are fabricated by a one-step, consisting of reducing platinum nanoparticles by a natural gum Arabic polymer. To guarantee the success of these nanoparticles' design, the nanoparticles have been characterized by Fourier-transform infrared spectroscopy FTIR, and thermogravimetric TGA techniques. While, for the electrochemical characterization, we have adopted cyclic voltammetry CV and electrochemical impedance spectroscopy EIS to control different steps of surface modification, and the differential pulse anodic stripping DPAS was monitored to follow up the electrochemical detection of different heavy metals.Resultshave confirmed the good chemical and physical properties of the elaborated nanoparticles. As, the developed sensor showed a specific electrochemical response toward the heavy metal ions separately, with a lower limit of detection lower LOD than that recommended by the World Health Organization, in order of 9.6 ppb for Cu2+, 1.9 ppb for Zn2+, 0.9 ppb for Hg2+, and 4.2 ppb for Pb2+. Impressively, the elaborated sensor has demonstrated also high stability, outstanding sensitivity, and excellent analytical performance.In addition, the elaborated analytical tool has been successfully applied to the determination of various heavy metal ions in real samples, reflecting then its promising prospect in practical application. The key solution to combat trace metal pollution and keep the environment, ecosystem, animals, and humans safe is earlier and rapid trace metal detection. For all these reasons, we propose in this work the design of a simple electrochemical sensor functionalized with green nanoparticles for electrochemical detection of the fourth most dangerous heavy metal ions namely copper, zinc, lead, and mercury. The green nanoparticles are fabricated by a one-step, consisting of reducing platinum nanoparticles by a natural gum Arabic polymer. To guarantee the success of these nanoparticles' design, the nanoparticles have been characterized by Fourier-transform infrared spectroscopy FTIR, and thermogravimetric TGA techniques. While, for the electrochemical characterization, we have adopted cyclic voltammetry CV and electrochemical impedance spectroscopy EIS to control different steps of surface modification, and the differential pulse anodic stripping DPAS was monitored to follow up the electrochemical detection of different heavy metals. have confirmed the good chemical and physical properties of the elaborated nanoparticles. As, the developed sensor showed a specific electrochemical response toward the heavy metal ions separately, with a lower limit of detection lower LOD than that recommended by the World Health Organization, in order of 9.6 ppb for Cu , 1.9 ppb for Zn , 0.9 ppb for Hg , and 4.2 ppb for Pb . Impressively, the elaborated sensor has demonstrated also high stability, outstanding sensitivity, and excellent analytical performance.In addition, the elaborated analytical tool has been successfully applied to the determination of various heavy metal ions in real samples, reflecting then its promising prospect in practical application. The key solution to combat trace metal pollution and keep the environment, ecosystem, animals,and humans safe is earlier and rapid trace metal detection. For all these reasons, we propose inthis work the design of a simple electrochemical sensor functionalized with green nanoparticlesfor electrochemical detection of the fourth most dangerous heavy metal ions namely copper, zinc,lead, and mercury. The green nanoparticles are fabricated by a one-step, consisting of reducingplatinum nanoparticles by a natural gum Arabic polymer. To guarantee the success of thesenanoparticles’ design, the nanoparticles have been characterized by Fourier-transform infraredspectroscopy FTIR, and thermogravimetric TGA techniques. While, for the electrochemicalcharacterization, we have adopted cyclic voltammetry CV and electrochemical impedance spectroscopyEIS to control different steps of surface modification, and the differential pulse anodicstripping DPAS was monitored to follow up the electrochemical detection of different heavymetals.Results: have confirmed the good chemical and physical properties of the elaborated nanoparticles.As, the developed sensor showed a specific electrochemical response toward the heavymetal ions separately, with a lower limit of detection lower LOD than that recommended by theWorld Health Organization, in order of 9.6 ppb for Cu2+, 1.9 ppb for Zn2+, 0.9 ppb for Hg2+, and4.2 ppb for Pb2+. Impressively, the elaborated sensor has demonstrated also high stability,outstanding sensitivity, and excellent analytical performance.In addition, the elaborated analytical tool has been successfully applied to the determination ofvarious heavy metal ions in real samples, reflecting then its promising prospect in practicalapplication. |
| ArticleNumber | e26364 |
| Author | Chrouda, Amani Elamin, Manahil Babiker Alrouqi, Rahaf Mutlaq Ali, Shazalia Mahmoud Ahmed Alhaidari, Laila M. Renault, Nicole Jaffrezic Jabli, Mahjoub |
| Author_xml | – sequence: 1 givenname: Manahil Babiker surname: Elamin fullname: Elamin, Manahil Babiker organization: Department of Chemistry, Faculty of Science Al-Zulfi, Majmaah University, 11952, Saudi Arabia – sequence: 2 givenname: Amani orcidid: 0000-0003-0939-9890 surname: Chrouda fullname: Chrouda, Amani email: amain.c@mu.edu.sa organization: Department of Chemistry, Faculty of Science Al-Zulfi, Majmaah University, 11952, Saudi Arabia – sequence: 3 givenname: Shazalia Mahmoud Ahmed surname: Ali fullname: Ali, Shazalia Mahmoud Ahmed email: sm.ahmed@mu.edu.sa organization: Department of Chemistry, Faculty of Science Al-Zulfi, Majmaah University, 11952, Saudi Arabia – sequence: 4 givenname: Laila M. surname: Alhaidari fullname: Alhaidari, Laila M. organization: Department of Chemistry, Faculty of Science Al-Zulfi, Majmaah University, 11952, Saudi Arabia – sequence: 5 givenname: Mahjoub surname: Jabli fullname: Jabli, Mahjoub organization: Department of Chemistry, Faculty of Science Al-Zulfi, Majmaah University, 11952, Saudi Arabia – sequence: 6 givenname: Rahaf Mutlaq surname: Alrouqi fullname: Alrouqi, Rahaf Mutlaq organization: Department of Chemistry, Faculty of Science Al-Zulfi, Majmaah University, 11952, Saudi Arabia – sequence: 7 givenname: Nicole Jaffrezic surname: Renault fullname: Renault, Nicole Jaffrezic organization: Institute of Analytical Sciences, UMR CNRS-UCBL-ENS 5280, 5 Rue la Doua, 69100, Villeurbanne, CEDEX, France |
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| Cites_doi | 10.3390/colloids7020026 10.1039/D0RA01004A 10.3390/s23073692 10.1002/pat.6151 10.1007/s10853-017-1896-6 10.2298/JSC200521077D 10.3390/separations9100322 10.1007/s10008-017-3872-0 10.1515/gps-2022-0081 10.1016/j.trac.2020.116014 10.1155/2023/1457498 10.1016/j.apsadv.2021.100181 10.3390/ijerph20032395 10.3389/fpls.2022.953861 10.1007/s42452-021-04547-y 10.3390/nano13061055 10.1002/elps.202100204 10.1016/j.jksus.2022.101865 10.1016/j.heliyon.2020.e04691 |
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| Issue | 4 |
| Keywords | SWV detection. Real sample Green synthesis Pt nanoparticle Screen printed Heavy metals SWV detection Green synthesis Pt nanoparticle Heavy metals SWV detection. Real sample Real sample |
| Language | English |
| License | This is an open access article under the CC BY-NC-ND license. 2024 Published by Elsevier Ltd. Distributed under a Creative Commons Attribution 4.0 International License: http://creativecommons.org/licenses/by/4.0 This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/). |
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| Title | Electrochemical sensor based on gum Arabic nanoparticles for rapid and in-situ detection of different heavy metals in real samples |
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