Innovative dual-mode miniaturized nitrite sensor: Incorporating colorimetric and electrochemical detectors for comprehensive monitoring on a single platform

[Display omitted] •Pioneered dual-mode PAD for efficient nitrite detection.•Integrated colorimetric and electrochemical detection to enable comprehensive and versatile nitrite monitoring.•Achieved improvements in detection range, precision, and utility for diverse applications including water qualit...

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Veröffentlicht in:Microchemical journal 2024-12, Vol.207, p.112130, Article 112130
Hauptverfasser: Tiawpisitpong, Parima, Warisson, Tinnakrit, Pinyorospathum, Chanika, Charoenkitamorn, Kanokwan
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Sprache:eng
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Zusammenfassung:[Display omitted] •Pioneered dual-mode PAD for efficient nitrite detection.•Integrated colorimetric and electrochemical detection to enable comprehensive and versatile nitrite monitoring.•Achieved improvements in detection range, precision, and utility for diverse applications including water quality monitoring, food safety assessments, etc. This study introduces a novel, miniaturized analytical platform for a comprehensive range of founded nitrite concentrations on a single, portable device. Nitrites, essential for extending shelf life and enhancing color, are commonly found in both natural and industrial environments. In environmental settings, it is important to detect low nitrite concentrations, industrial applications, such as in the food industry, require handling higher concentrations effectively. This groundbreaking approach combines colorimetry and electrochemical detection for nitrite monitoring in a single portable paper-based device (PAD). Utilizing potassium permanganate (KMnO4) as a chromogenic agent, the device enables rapid, visual detection and quantification of high nitrite concentrations via smartphone-based color intensity analysis. For sensitive detection of low-level nitrite, it incorporates a cellulose acetate-modified screen-printed electrode (CA/SPCE) with differential pulse voltammetric detection. Under optimal conditions, the proposed dual-detection platform effectively detects nitrite concentrations ranging from 0.05 to 12.5 mM. Specifically, it covers (0.05–0.6 mM using electrochemical detection and 0.5 to 12.5 mM through colorimetric analysis. High nitrite levels produce a faded color in the test zone, while low or undetectable color changes trigger electrochemical analysis for enhanced precision. This PAD platform is portable, cost-effective, and minimizes reagent usage. Importantly, the method’s detection limit aligns with the World Health Organization’s acceptable daily nitrite intake in drinking water (3 mg L−1, approximately 65 µM), making it a practical tool for nitrite screening.
ISSN:0026-265X
DOI:10.1016/j.microc.2024.112130