Methodology for decentralized analysis: Detection, quantification and in situ monitoring of pharmaceutical formulations removal by electro-Fenton

[Display omitted] •A DPV on SPCE method was developed and customized to manufacture a handle device.•The miniaturized device was used for the quantification of clozapine in Leponex®.•Direct measurements in suspension samples can be done, decreasing time-consuming.•It was successfully applied to moni...

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Published inJournal of electroanalytical chemistry (Lausanne, Switzerland) Vol. 909; p. 116139
Main Authors Caruncho-Pérez, Sara, Prado-Comesaña, Ana M., Arellano, María, Pazos, Marta, Ángeles Sanromán, M., González-Romero, Elisa
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 15.03.2022
Elsevier Science Ltd
Subjects
Clozapine
electro-Fenton
Handled device
Leponex
Methodology
Pollutants
Portable equipment
Reflective spectroelectrochemistry
Sensitivity analysis
Voltammetry
Wastewater treatment
Water quality
SEC
CLZ
EF
electro-Fenton
Leponex
Voltammetry
Clozapine
DPV
Reflective spectroelectrochemistry
Handled device
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Summary:[Display omitted] •A DPV on SPCE method was developed and customized to manufacture a handle device.•The miniaturized device was used for the quantification of clozapine in Leponex®.•Direct measurements in suspension samples can be done, decreasing time-consuming.•It was successfully applied to monitor EF degradation of Leponex® in real-time. Water quality is essential to both human and ecosystem health, and a fast detection of emerging pollutants is claimed, along with effective wastewater treatment plants to eliminate these types of substances. The goal of this study was the development of a sensitive and selective methodology to customize a handle device that meets this demand. Clozapine and its pharmacological formulation, Leponex®, were used as a model. The results obtained from the studies by differential pulse voltammetry (DPV) demonstrated that this methodology allows a simpler and cheaper decentralized analysis without losing sensitivity, performing electrochemical measurements in situ, in real-time and directly without sample treatment, with a good precision (RSD 3.7 %) and excellent accuracy (recoveries between 97.6 and 99.9 %). Moreover, the methodology was successfully used for direct follow-up the medicine removal in real samples by electro-Fenton (EF) treatment. The results gathered showed a relative error of less than 2 % concerning the measurements made with the conventional potentiostat. Bearing this in mind, the effectiveness of these electrochemical techniques used in tandem with the comfort and high specificity offered by the portable device, a more exhaustive control of water quality can be achieved, thus improving the quality of life in the planet.
ISSN:1572-6657
1873-2569
DOI:10.1016/j.jelechem.2022.116139