Detection of pesticides using nanozymes: Trends, challenges and outlook

Effective monitoring of pesticide residues in food and environmental samples is of high importance as these chemical residues undergo ongoing eco- and bio-accumulation, compromising the health of humans and animals alike. Several sensor platforms are being developed for the detection of pesticide re...

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Published in:TrAC, Trends in analytical chemistry (Regular ed.) Trends in analytical chemistry (Regular ed.), 2021-11, Vol.144, p.116429, Article 116429
Main Authors: Naveen Prasad, Sanjana, Bansal, Vipul, Ramanathan, Rajesh
Format: Article
Language:English
Subjects:
Acetamiprid
Aptamers
Atrazine
Biosensors
Enzyme-mimic
Nanozyme
Organophosphates
Pesticide
Sensors
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Summary:Effective monitoring of pesticide residues in food and environmental samples is of high importance as these chemical residues undergo ongoing eco- and bio-accumulation, compromising the health of humans and animals alike. Several sensor platforms are being developed for the detection of pesticide residues in a range of sample matrices. A relatively new sensor platform that has gained enormous attention is based on the natural enzyme-mimicking catalytic activity of nanomaterials, more commonly referred to as nanozyme activity. In this review, we provide a critical overview of the recent advances in nanozyme-based sensing strategies for the detection of pesticides. The review highlights the salient features and the working principle of various nanozyme-based sensors, their integration with molecular recognition elements (MREs) to improve target specificity, and associated limitations that must be overcome to turn nanozyme sensors into mainstream analytical tools. The review further provides a critical outlook of nanozyme-based sensors for pesticide detection. The last section of the review outlines the steps that must be taken to realise the full potential of nanozyme-based sensors. [Display omitted] •This review provides a critical overview of nanozyme sensors for the detection of pesticides.•The review highlights the breath of sensors developed using nanozymes.•Opportunities and challenges for future growth is summarized.
ISSN:0165-9936
1879-3142
DOI:10.1016/j.trac.2021.116429