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Article Abstract
The widespread use of pesticides has led to their residues posing a serious threat to the environment and the health of plants and animals, making the development of efficient and convenient detection technologies an urgent priority. Organic fluorescent probes have become a research hotspot owing to their rapid response, visual detection capabilities, and potential for portability. Therefore, this paper reviews the research progress of organic fluorescence detection of pesticides based on the mechanisms of enzymatic reactions, competitive complexation with metal ions, nucleophilic/electrophilic reactions and hydrogen bonding in the past three years (From 2023 to 2025). The aim is to provide theoretical support for future research that needs to focus on the design of synergistic probes with multiple mechanisms, the development of new sensing systems with intelligent responses, and the optimization of detection strategies combined with artificial intelligence algorithms, in order to promote the development of detection technology in the direction of high precision and intelligence, and to provide theoretical support for the construction of pesticide rapid detection platforms applicable to multiple scenarios.
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