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Enhancing Sensitivity and Selectivity in Pesticide Detection: A Review of Cutting‐Edge Techniques

The primary goal of our review was to systematically explore and compare the state‐of‐the‐art methodologies employed in the detection of pesticides, a critical component of global food safety initiatives. New approach methods in the fields of luminescent nanosensors, chromatography, terahertz spectr...

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Published in:	Environmental toxicology and chemistry 2024-07, Vol.43 (7), p.1468-1484
Main Authors:	Ortiz‐Martínez, Mónica, Molina González, Jorge Alberto, Ramírez García, Gonzalo, Luna Bugallo, Andrés, Justo Guerrero, Manuel Alejandro, Strupiechonski, Elodie Claire
Format:	Article
Language:	English
Subjects:	Adaptability agroecology Analytical chemistry Chromatography Critical components ecotoxicology Emerging analytical technologies Environmental chemistry Environmental Monitoring - methods Food contamination Food Contamination - analysis Food safety Gas chromatography liquids luminescence Nanomaterials Nanosensors Penetration depth Pesticide determination Pesticides Pesticides - analysis Raman spectroscopy Reviews Sample preparation Sensitivity enhancement Sensors sensors (equipment) Spectroscopy Spectrum Analysis, Raman Toxicology
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description	The primary goal of our review was to systematically explore and compare the state‐of‐the‐art methodologies employed in the detection of pesticides, a critical component of global food safety initiatives. New approach methods in the fields of luminescent nanosensors, chromatography, terahertz spectroscopy, and Raman spectroscopy are discussed as precise, rapid, and versatile strategies for pesticide detection in food items and agroecological samples. Luminescent nanosensors emerge as powerful tools, noted for their portability and unparalleled sensitivity and real‐time monitoring capabilities. Liquid and gas chromatography coupled to spectroscopic detectors, stalwarts in the analytical chemistry field, are lauded for their precision, wide applicability, and validation in diverse regulatory environments. Terahertz spectroscopy offers unique advantages such as noninvasive testing, profound penetration depth, and bulk sample handling. Meanwhile, Raman spectroscopy stands out with its nondestructive nature, its ability to detect even trace amounts of pesticides, and its minimal requirement for sample preparation. While acknowledging the maturity and robustness of these techniques, our review underscores the importance of persistent innovation. These methodologies' significance extends beyond their present functions, highlighting their adaptability to meet ever‐evolving challenges. Environ Toxicol Chem 2024;43:1468–1484. © 2024 The Authors. Environmental Toxicology and Chemistry published by Wiley Periodicals LLC on behalf of SETAC.
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subjects	Adaptability agroecology Analytical chemistry Chromatography Critical components ecotoxicology Emerging analytical technologies Environmental chemistry Environmental Monitoring - methods Food contamination Food Contamination - analysis Food safety Gas chromatography liquids luminescence Nanomaterials Nanosensors Penetration depth Pesticide determination Pesticides Pesticides - analysis Raman spectroscopy Reviews Sample preparation Sensitivity enhancement Sensors sensors (equipment) Spectroscopy Spectrum Analysis, Raman Toxicology
title	Enhancing Sensitivity and Selectivity in Pesticide Detection: A Review of Cutting‐Edge Techniques
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