Electrochemical micropipette-tip for low-cost environmental applications: Determination of anionic surfactants through their interaction with methylene blue

Miniaturization is one of the main requirements in the design of portable devices that allow in-field analysis. This is especially interesting in environmental monitoring, where the time of the sample-to-result process could be decreased considerably by approaching the analytical platforms to the sa...

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Bibliographic Details
Published in:Talanta (Oxford) 2021-03, Vol.224, p.121732, Article 121732
Main Authors: González-López, Andrea, Costa-Rama, Estefanía, Fernández-Abedul, M. Teresa
Format: Article
Language:English
Subjects:
Electrochemical analysis
Methylene blue
Micropipette-tip electrochemical cell
Sodium dodecyl sulphate
Stainless-steel electrodes
Water analysis
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Summary:Miniaturization is one of the main requirements in the design of portable devices that allow in-field analysis. This is especially interesting in environmental monitoring, where the time of the sample-to-result process could be decreased considerably by approaching the analytical platforms to the sampling point. We employed traditional mass-produced and low-cost elements (micropipette tips and pins) in an out-of-box application to generate an innovative and cost-effective platform for analytical purposes. We have designed simple and easy-to-use electrochemical cells inside polypropylene micropipette tips with three stainless-steel pins acting as the working, reference and counter electrodes of a potentiostatic system. The pin acting as working electrode was previously coated with carbon ink, meanwhile the rest were used unmodified. In this way, electrochemical in-the-tip measurements were done directly using low volumes (μL) of sample. The devices showed good reproducibility, with a relative standard deviation of 7% (n = 5) for five different tip-based complete electrochemical cells. As a proof-of-concept, its utility has been probed by the determination of an anionic surfactant (sodium dodecyl sulphate, SDS) in water through its interaction with methylene blue (MB). Two different alternatives were presented based on the: 1) increase in the current intensity of the cathodic peak of MB due to the presence of SDS; 2) electrochemical determination of the MB remaining in the aqueous phase after extraction of the pair SDS-MB to an organic medium. [Display omitted] •Pin-based electrochemical cell in a multifunctional micropipette tip was developed.•Low-cost electroanalysis using stainless-steel pins and micropipette tips was achieved.•Fast determination of surfactants using a micropipette-tip-based electrochemical cell.•Electrochemical determination of SDS based on its interaction with methylene blue.•Water analysis was performed using a micropipette-tip based electrochemical cell.
ISSN:0039-9140
1873-3573
DOI:10.1016/j.talanta.2020.121732