4.5 Article

Modulating the Electrochemical Response of Eco-Friendly Laser-Pyrolyzed Paper Sensors Applied to Nitrite Determination

Journal

CHEMELECTROCHEM
Volume 10, Issue 1, Pages -

Publisher

WILEY-V C H VERLAG GMBH
DOI: 10.1002/celc.202201018

Keywords

electrochemical treatment; laser-pyrolyzed; paper-based devices; paper-based electrodes; nitrite

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Miniaturized paper-based electrochemical sensors were fabricated using kraft paper and CO2 laser, eliminating the need for chemical reagents and controlled conditions. The study optimized the paper type and laser processing parameters to improve the electrodes' performance. Electrochemical treatment further enhanced the sensors' electroactive area and roughness, resulting in improved selectivity and sensitivity for nitrite determination. The sensors also demonstrated good repeatability and batch-to-batch reproducibility. This work presents a sustainable approach to fabricating competitive electrochemical sensors and provides possibilities for designing new analytical systems.
Miniaturized paper-based electrochemical sensors were fabricated using kraft paper and CO2 laser, dispensing the need for chemical reagents and controlled atmospheric conditions. This study initially evaluated the paper type and laser processing parameters, enhancing the electrodes' robustness, electrochemical response, and electrical resistance. The sensors were also treated by applying -1 V for 60 s in 1.0 molL(-1) KCl, which is a simple and rapid procedure. The electrochemical treatment increased the electroactive area and roughness, confirmed by scanning electron microscopy. These aspects helped modulate the sensors' electrochemical response for nitrite determination, improving selectivity and sensitivity for this compound. The sensors also showed repeatability and batch-to-batch reproducibility, with 2.2 and 10% RSD, respectively. Therefore, this work brings a protocol to fabricating competitive electrochemical sensors through a sustainable strategy, opening possibilities for designing new analytical systems.

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