Evaluation of thallium ion as an effective ion in human health using an electrochemical sensor

Exposure to thallium (Tl), a noxious heavy metal, poses significant health risks to both humans and animals upon ingestion. Therefore, monitoring Tl levels in the environment is crucial to prevent human exposure and reduce the risk of developing severe health problems. This paper presents the develo...

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Bibliographic Details
Published in:Environmental research 2023-12, Vol.238, p.117026-117026, Article 117026
Main Authors: Jin, Xuru, Baghayeri, Mehdi, Nodehi, Marzieh, Koshki, Mina-Sadat, Ramezani, Ali, Fayazi, Maryam, Xu, Yi, Hua, Zhidan, Lei, Ying, Makvandi, Pooyan
Format: Article
Language:English
Subjects:
MnO2 magnetic sepiolite
MWCNTs
SWASV
Tl (I) sensor
Ultrasensitive electrochemical sensor
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Summary:Exposure to thallium (Tl), a noxious heavy metal, poses significant health risks to both humans and animals upon ingestion. Therefore, monitoring Tl levels in the environment is crucial to prevent human exposure and reduce the risk of developing severe health problems. This paper presents the development of a highly sensitive Tl ions sensor through surface modification of a glassy carbon electrode with a nanocomposite comprising MnO2 magnetic sepiolite and multi-walled carbon nanotubes (MnO2@Fe3O4/Sep/MWCNT/GCE). Multiple methodologies were employed to assess the performance of the newly developed sensor. By employing square wave anodic stripping voltammetry (SWASV) to optimize the measurement conditions, notable enhancements were observed in the stripping peak currents of Tl (I) on the MnO2@Fe3O4/Sep/MWCNT/GCE surface. The effectiveness of the nanocomposite in facilitating electron transfer between the Tl (I) ions (guest) and the electrode (host) was demonstrated from the enhanced signals observed at the different modified electrode surfaces under optimal conditions. The developed sensor displayed a wide linear range of 0.1–1500 ppb for Tl (I) and a low detection limit of 0.03 ppb for Tl (I). It was found to be selective for Tl (I) ions while remaining unaffected by interfering non-target ions in the presence of the target ions. Despite its simple preparation procedure, the modified electrode exhibited high stability and excellent reproducibility for measuring Tl (I). The outstanding electroanalytical performances of the MnO2@Fe3O4/Sep/MWCNT/GCE electrode enabled its successful use as an ultrasensitive sensor for determining trace amounts of Tl in environmental samples. [Display omitted] •Tl (I) is a highly toxic metal that poses a severe health hazard to humans and animals.•A nanocomposite MnO2@Fe3O4/Sep/MWCNT was developed for a highly sensitive Tl ion sensor.•The sensor shows a wide linear range of 0.1–1500 ppb with a low LOD of 0.03 ppb for Tl (I).•The modified electrode exhibited high electroanalytical performances for measuring Tl in water samples.
ISSN:0013-9351
1096-0953
DOI:10.1016/j.envres.2023.117026