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. 2025 Nov 15;285(Pt 1):122208.
doi: 10.1016/j.envres.2025.122208. Epub 2025 Jul 3.

A gold nanoparticle-enhanced methylene blue electrochemical sensor for detecting waterborne anionic surfactants and PFAS

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A gold nanoparticle-enhanced methylene blue electrochemical sensor for detecting waterborne anionic surfactants and PFAS

Federica Simonetti et al. Environ Res. .

Abstract

Anionic surfactants (ASs) represent a class of contaminants persistently released into aquatic environments, with anionic fluorinated surfactants emerging as a significant concern due to their potential to infiltrate potable water and pose a threat to human health. Therefore, the development of novel tools for their early detection is crucial. In this study, the methylene blue (MB) redox probe, previously known for its selectivity towards ASs, was electropolymerized onto the surface of carbon nanotube-modified graphite screen-printed electrodes. The electroanalytical ability of the platform was tested by cyclic (CV) and square-wave (SWV) voltammetries upon the addition of sodium dodecyl sulfate as model analyte, due to its ubiquitous presence in the environment. A comprehensive exploration of key factors, such as scan cycles, optimal instrumental parameters, and pH effect was undertaken, revealing a stable and controlled redox response. To further enhance the sensitivity and detection capabilities of the MB-based sensor, gold nanoparticles (AuNPs) were incorporated, forming MB@AuNPs-modified electrodes. This enhanced system demonstrated excellent linearity (0.05-1 ng/mL and 5-50 ng/mL), high reproducibility, and improved detection limits (8.5 pg/mL and 0.23 ng/mL), attributed to the synergistic effect of MB and AuNPs in boosting the reduction current. The sensor was successfully applied to wastewater samples, benchmarked against the MBAS reference method, and further validated for the detection of two long-chain PFAS in drinking water. Supported by quantum mechanical calculations and optical studies, this proof-of-concept platform represents a sustainable approach for efficient water quality monitoring and management.

Keywords: CEC; Efficient management; PFAS; Quality control; Surfactants; Water monitoring.

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Conflict of interest statement

Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Federica Simonetti reports equipment, drugs, or supplies, statistical analysis, and writing assistance were provided by Acea. If there are other authors, they declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.

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