Determination of glyphosate using electrochemical aptamer-based label-free voltammetric biosensing platform
Author:
Funder
Tehran University of Medical Sciences
Publisher
Elsevier BV
Reference67 articles.
1. Highly efficient and low-cost clay-based adsorbent for glyphosate removal from contaminated water;Nargis;Chem. Eng. Technol.,2022
2. Herbicide glyphosate: toxicity and microbial degradation;Singh;Int. J. Environ. Res. Public Health.,2020
3. Amperometric biosensor for glyphosate based on the inhibition of tyrosinase conjugated to carbon nano-onions in a chitosan matrix on a screen-printed electrode;Sok;Microchim. Acta.,2019
4. Development of an oligopeptide functionalized surface plasmon resonance biosensor for online detection of glyphosate;Ding;Anal. Chem.,2013
5. Facts and fallacies in the debate on glyphosate toxicity;Mesnage;Front. Public Heal.,2017
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