A comprehensive review on electrochemical and optical aptasensors for organophosphorus pesticides

There has been a rise in pesticide use as a result of the growing industrialization of agriculture. Organophosphorus pesticides have been widely applied as agricultural and domestic pest control agents for nearly five decades, and they remain as health and environmental hazards in water supplies, ve...

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Veröffentlicht in:	Mikrochimica acta (1966) 2022-09, Vol.189 (9), p.362-362, Article 362
Hauptverfasser:	Khosropour, Hossein, Kalambate, Pramod K., Kalambate, Rupali P., Permpoka, Khageephun, Zhou, Xiaohong, Chen, George Y., Laiwattanapaisal, Wanida
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Sprache:	eng
Schlagworte:	Agrochemicals Analytical Chemistry Biosensors Characterization and Evaluation of Materials Chemistry Chemistry and Materials Science Colorimetry Detectors Electric properties Electrochemiluminescence Fluorescence Health aspects Health hazards Microengineering Nanochemistry Nanotechnology Pesticides Processed foods Review Article Selectivity Sensitivity Toxins Water supply
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container_title	Mikrochimica acta (1966)
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creator	Khosropour, Hossein Kalambate, Pramod K. Kalambate, Rupali P. Permpoka, Khageephun Zhou, Xiaohong Chen, George Y. Laiwattanapaisal, Wanida
description	There has been a rise in pesticide use as a result of the growing industrialization of agriculture. Organophosphorus pesticides have been widely applied as agricultural and domestic pest control agents for nearly five decades, and they remain as health and environmental hazards in water supplies, vegetables, fruits, and processed foods causing serious foodborne illness. Thus, the rapid and reliable detection of these harmful organophosphorus toxins with excellent sensitivity and selectivity is of utmost importance. Aptasensors are biosensors based on aptamers, which exhibit exceptional recognition capability for a variety of targets. Aptasensors offer numerous advantages over conventional approaches, including increased sensitivity, selectivity, design flexibility, and cost-effectiveness. As a result, interest in developing aptasensors continues to expand. This paper discusses the historical and modern advancements of aptasensors through the use of nanotechnology to enhance the signal, resulting in high sensitivity and detection accuracy. More importantly, this review summarizes the principles and strategies underlying different organophosphorus aptasensors, including electrochemical, electrochemiluminescent, fluorescent, and colorimetric ones. Graphical abstract
doi_str_mv	10.1007/s00604-022-05399-y
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Organophosphorus pesticides have been widely applied as agricultural and domestic pest control agents for nearly five decades, and they remain as health and environmental hazards in water supplies, vegetables, fruits, and processed foods causing serious foodborne illness. Thus, the rapid and reliable detection of these harmful organophosphorus toxins with excellent sensitivity and selectivity is of utmost importance. Aptasensors are biosensors based on aptamers, which exhibit exceptional recognition capability for a variety of targets. Aptasensors offer numerous advantages over conventional approaches, including increased sensitivity, selectivity, design flexibility, and cost-effectiveness. As a result, interest in developing aptasensors continues to expand. This paper discusses the historical and modern advancements of aptasensors through the use of nanotechnology to enhance the signal, resulting in high sensitivity and detection accuracy. More importantly, this review summarizes the principles and strategies underlying different organophosphorus aptasensors, including electrochemical, electrochemiluminescent, fluorescent, and colorimetric ones. 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Organophosphorus pesticides have been widely applied as agricultural and domestic pest control agents for nearly five decades, and they remain as health and environmental hazards in water supplies, vegetables, fruits, and processed foods causing serious foodborne illness. Thus, the rapid and reliable detection of these harmful organophosphorus toxins with excellent sensitivity and selectivity is of utmost importance. Aptasensors are biosensors based on aptamers, which exhibit exceptional recognition capability for a variety of targets. Aptasensors offer numerous advantages over conventional approaches, including increased sensitivity, selectivity, design flexibility, and cost-effectiveness. As a result, interest in developing aptasensors continues to expand. This paper discusses the historical and modern advancements of aptasensors through the use of nanotechnology to enhance the signal, resulting in high sensitivity and detection accuracy. More importantly, this review summarizes the principles and strategies underlying different organophosphorus aptasensors, including electrochemical, electrochemiluminescent, fluorescent, and colorimetric ones. 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subjects	Agrochemicals Analytical Chemistry Biosensors Characterization and Evaluation of Materials Chemistry Chemistry and Materials Science Colorimetry Detectors Electric properties Electrochemiluminescence Fluorescence Health aspects Health hazards Microengineering Nanochemistry Nanotechnology Pesticides Processed foods Review Article Selectivity Sensitivity Toxins Water supply
title	A comprehensive review on electrochemical and optical aptasensors for organophosphorus pesticides
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