Stricter guidelines are progressively established to control the presence of perfluorooctanoic acid (PFOA) in water bodies due to its toxicity and persistence in the environment. This study focused on the development of an electrochemical sensor based on a molecularly imprinted poly(o-phenylenediamine) film to detect PFOA in aqueous matrices. A comparative evaluation of sensor fabrication and analytical performance was performed on gold (AuE) and glassy carbon (GCE) electrodes. Experimental conditions influencing electropolymerization behavior, template removal, polymer morphology, and PFOA recognition were studied. Characterizations using electrochemical techniques and Raman spectroscopy were correlated with analytical performance. These were assessed in spiked buffer solution, yielding concentration-dependent trends over a wide dynamic range, with detection limits of 23.0 and 20.2 ppt for the AuE and the GCE, respectively, meeting the sensitivity requirements of current EU regulations. Selectivity was evaluated by studying sensor response in the co-presence of potential interferents. The sensor was then tested on real samples collected from a wastewater treatment plant. A minor matrix effect was registered in the filtered effluent, supporting the applicability of the sensor for rapid on-site PFOA screening near regulatory thresholds.
Electrochemical sensing of perfluorooctanoic acid in wastewater: Characterization of a molecularly imprinted polymer-based sensor / Sfragano P.S., Emanuele A., Laschi S., Ferraro G., Fratini E., Palchetti I.. - In: BIOSENSORS AND BIOELECTRONICS. X. - ISSN 2590-1370. - ELETTRONICO. - 28:(2026), pp. 100726.0-100726.0. [10.1016/j.biosx.2025.100726]
Electrochemical sensing of perfluorooctanoic acid in wastewater: Characterization of a molecularly imprinted polymer-based sensor
Sfragano P. S.Membro del Collaboration Group
;Emanuele A.Membro del Collaboration Group
;Laschi S.Membro del Collaboration Group
;Fratini E.Membro del Collaboration Group
;Palchetti I.
2026
Abstract
Stricter guidelines are progressively established to control the presence of perfluorooctanoic acid (PFOA) in water bodies due to its toxicity and persistence in the environment. This study focused on the development of an electrochemical sensor based on a molecularly imprinted poly(o-phenylenediamine) film to detect PFOA in aqueous matrices. A comparative evaluation of sensor fabrication and analytical performance was performed on gold (AuE) and glassy carbon (GCE) electrodes. Experimental conditions influencing electropolymerization behavior, template removal, polymer morphology, and PFOA recognition were studied. Characterizations using electrochemical techniques and Raman spectroscopy were correlated with analytical performance. These were assessed in spiked buffer solution, yielding concentration-dependent trends over a wide dynamic range, with detection limits of 23.0 and 20.2 ppt for the AuE and the GCE, respectively, meeting the sensitivity requirements of current EU regulations. Selectivity was evaluated by studying sensor response in the co-presence of potential interferents. The sensor was then tested on real samples collected from a wastewater treatment plant. A minor matrix effect was registered in the filtered effluent, supporting the applicability of the sensor for rapid on-site PFOA screening near regulatory thresholds.
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