Alcohol-Triggered Capillarity through Porous Pyrolyzed Paper-Based Electrodes Enables Ultrasensitive Electrochemical Detection of Phosphate
| العنوان: | Alcohol-Triggered Capillarity through Porous Pyrolyzed Paper-Based Electrodes Enables Ultrasensitive Electrochemical Detection of Phosphate |
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| المؤلفون: | Anielli M. Pasqualeti, Flavio M. Shimizu, Angelo L. Gobbi, Caroline Y. N. Nicoliche, Renato S. Lima, Murilo Santhiago |
| المصدر: | Repositório Institucional da USP (Biblioteca Digital da Produção Intelectual) Universidade de São Paulo (USP) instacron:USP |
| سنة النشر: | 2021 |
| مصطلحات موضوعية: | Fluid Flow and Transfer Processes, Detection limit, Analyte, Materials science, Ethanol, FÓSFORO, Process Chemistry and Technology, Bioengineering, Nanotechnology, Electrochemical Techniques, Phosphate, Electrochemistry, Phosphates, chemistry.chemical_compound, chemistry, Electrode, Sensitivity (control systems), Methanol, Porosity, Instrumentation, Electrodes, Capillary Action |
| الوصف: | The sensing field has shed light on an urgent necessity for field-deployable, user-friendly, sensitive, and scalable platforms that are able to translate solutions into the real world. Here, we attempt to meet these requests by addressing a simple, low-cost, and fast electrochemical approach to provide sensitive assays that consist of dropping a small volume (0.5 μL) of off-the-shelf alcohols on pyrolyzed paper-based electrodes before adding the sample (150 μL). This method was applied in the detection of phosphate after the formation of the phosphomolybdate complex (250-860 nm in size). Prior drops of isopropanol allow for the fast penetration of the sample through pores of this hydrophobic paper, delivering hindrance-free redox reactions across increasing active areas and ultimately improving the detection performance. The sensitivity (-1.9 10-6 mA cm-2 ppb-1) and limit of detection (1.1 ppb) were improved, respectively, by factors of 33 and 99 over the data achieved without the addition of isopropanol, listing among the lowest values when compared with those results reported in the literature for phosphate (expressed in terms of the concentration of phosphorus). The approach enabled the quantification of this analyte in real samples with accuracies ranging from 87 to 103%. Furthermore, preliminary measurements demonstrated the successful performance of the electrodes with prior addition of other widely used alcohols, that is, methanol and ethanol. These results may extend the applicability of the method. In special, the scalability and eco-friendly character of the electrode fabrication combined with the sensitivity and simplicity of the analyses make the developed platform a promising alternative that may help to pave the way for a new generation of disposable sensors toward the daily monitoring of phosphate in water samples, thus contributing to prevent ecological side effects. |
| تدمد: | 2379-3694 |
| URL الوصول: | https://explore.openaire.eu/search/publication?articleId=doi_dedup___::b82fd96ca6b71354621d9eb8815662ee https://pubmed.ncbi.nlm.nih.gov/34399053 |
| حقوق: | OPEN |
| رقم الأكسشن: | edsair.doi.dedup.....b82fd96ca6b71354621d9eb8815662ee |
| قاعدة البيانات: | OpenAIRE |
Find this issue from the American Chemical Society | تدمد: | 23793694 |
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