Mesoporous silica thin films for improved electrochemical detection of paraquat
Mesoporous silica thin films for improved electrochemical detection of paraquat
An electrochemical method was developed for rapid and sensitive detection of the herbicide paraquat in aqueous samples using mesoporous silica thin film modified glassy carbon electrodes (GCE). Vertically aligned mesoporous silica thin films were deposited onto GCE by electrochemically assisted self-assembly (EASA). Cyclic voltammetry revealed effective response to the cationic analyte (while rejecting anions) thanks to the charge selectivity exhibited by the negatively charged mesoporous channels. Square wave voltametry (SWV) was then used to detect paraquat via its one electron reduction process. Influence of various experimental parameters (i.e., pH, electrolyte concentration, and nature of electrolyte anions) on sensitivity was investigated and discussed with respect to the mesopore characteristics and accumulation efficiency, pointing out the key role of charge distribution in such confined spaces on these processes. Calibration plots for paraquat concentration ranging from 10 nM to 10 μM were constructed at mesoporous silica modified GCE which were linear with increasing paraquat concentration, showing dramatically enhanced sensitivity (almost 30 times) as compared to nonmodified electrodes. Finally, real samples from Meuse River (France) spiked with paraquat, without any pretreatment (except filtration), were analyzed by SWV, revealing the possible detection of paraquat at very low concentration (10–50 nM). Limit of detection (LOD) calculated from real sample analysis was found to be 12 nM, which is well below the permissible limits of paraquat in drinking water (40–400 nM) in various countries.
484–493
Nasir, Tauqir
afe6d658-cc69-4371-8ae6-d722e30352c8
Herzog, Gregoire
4df04404-12ef-4c8d-a992-8f2016518f5e
Hébrant, Marc
fc5c29a9-7feb-4b9c-8a9d-cf5bd3cda7ec
Despas, Christelle
f0ccec14-7771-48b9-aa33-d3393452b3e4
Liu, Liang
abf4352a-fdaa-4dd4-94ae-0b0a31ee1acd
Walcarius, Alain
fb49aa57-26e0-4111-bf8e-f75cd5b6c3e8
17 January 2018
Nasir, Tauqir
afe6d658-cc69-4371-8ae6-d722e30352c8
Herzog, Gregoire
4df04404-12ef-4c8d-a992-8f2016518f5e
Hébrant, Marc
fc5c29a9-7feb-4b9c-8a9d-cf5bd3cda7ec
Despas, Christelle
f0ccec14-7771-48b9-aa33-d3393452b3e4
Liu, Liang
abf4352a-fdaa-4dd4-94ae-0b0a31ee1acd
Walcarius, Alain
fb49aa57-26e0-4111-bf8e-f75cd5b6c3e8
Nasir, Tauqir, Herzog, Gregoire, Hébrant, Marc, Despas, Christelle, Liu, Liang and Walcarius, Alain
(2018)
Mesoporous silica thin films for improved electrochemical detection of paraquat.
ACS Sensors, 3 (2), .
(doi:10.1021/acssensors.7b00920).
Abstract
An electrochemical method was developed for rapid and sensitive detection of the herbicide paraquat in aqueous samples using mesoporous silica thin film modified glassy carbon electrodes (GCE). Vertically aligned mesoporous silica thin films were deposited onto GCE by electrochemically assisted self-assembly (EASA). Cyclic voltammetry revealed effective response to the cationic analyte (while rejecting anions) thanks to the charge selectivity exhibited by the negatively charged mesoporous channels. Square wave voltametry (SWV) was then used to detect paraquat via its one electron reduction process. Influence of various experimental parameters (i.e., pH, electrolyte concentration, and nature of electrolyte anions) on sensitivity was investigated and discussed with respect to the mesopore characteristics and accumulation efficiency, pointing out the key role of charge distribution in such confined spaces on these processes. Calibration plots for paraquat concentration ranging from 10 nM to 10 μM were constructed at mesoporous silica modified GCE which were linear with increasing paraquat concentration, showing dramatically enhanced sensitivity (almost 30 times) as compared to nonmodified electrodes. Finally, real samples from Meuse River (France) spiked with paraquat, without any pretreatment (except filtration), were analyzed by SWV, revealing the possible detection of paraquat at very low concentration (10–50 nM). Limit of detection (LOD) calculated from real sample analysis was found to be 12 nM, which is well below the permissible limits of paraquat in drinking water (40–400 nM) in various countries.
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Published date: 17 January 2018
Identifiers
Local EPrints ID: 480635
URI: http://eprints.soton.ac.uk/id/eprint/480635
ISSN: 2379-3694
PURE UUID: 6e82f5b0-0412-4b2d-afe5-5221354801cb
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Date deposited: 08 Aug 2023 16:36
Last modified: 17 Mar 2024 04:02
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Contributors
Author:
Tauqir Nasir
Author:
Gregoire Herzog
Author:
Marc Hébrant
Author:
Christelle Despas
Author:
Liang Liu
Author:
Alain Walcarius
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