A new perspective for electrochemical determination of parathion and chlorantraniliprole pesticides via carbon nanotube-based thiophene-ferrocene appended hybrid nanosensor

[Display omitted] •The novel hybrid material (FT@CNT) was prepared by surface modification of the carbon nanotube with thiophene-ferrocene moieties.•The novel FT@CNT hybrid material were fully characterized by spectroscopic, microscopic and thermal techniques.•The experimental conditions were fully...

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Bibliographic Details
Published in:Sensors and actuators. B, Chemical Chemical, 2021-10, Vol.345, p.130344, Article 130344
Main Authors: Tümay, Süreyya Oğuz, Şenocak, Ahmet, Sarı, Erdem, Şanko, Vildan, Durmuş, Mahmut, Demirbas, Erhan
Format: Article
Language:English
Subjects:
Agrochemicals
Carbon
Carbon nanotubes
Chemical synthesis
Chlorantraliprole
Ecological effects
Electrochemical nanosensor
Ferrocene
Food
Hybrid material
Nanomaterials
Nanosensors
Parathion
Pesticide determination
Pesticides
Residues
Soil stability
Thiophene
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Summary:[Display omitted] •The novel hybrid material (FT@CNT) was prepared by surface modification of the carbon nanotube with thiophene-ferrocene moieties.•The novel FT@CNT hybrid material were fully characterized by spectroscopic, microscopic and thermal techniques.•The experimental conditions were fully optimized for determination of parathion and chlorantraniliprole pesticides in real samples.•Accuracy of the electrochemical methods was evaluated by spike/recovery and HPLC analysis in food and soil samples. The overuse of pesticides for agricultural activities causes adverse effects on human health and can lead to ecological pollution. Therefore, there has been a growing demand for accurate, sensitive, simple, and selective analytical methods for the determination of pesticide residues in food products, soil, etc. In this study, an electrochemical method was developed for the simultaneous determination of parathion and chlorantraniliprole pesticides based on novel electroactive and electropolymerizable group bearing hybrid nanomaterial. The novel hybrid ferrocene-thiophene modified by carbon nanotube (FT@CNT) was prepared by surface modification of the carbon nanotube with thiophene-ferrocene moieties via Click chemistry and used as an electrochemical nanosensor. The experimental conditions such as pH and concentration of the nanosensor were optimized prior to the electrochemical determination of parathion and chlorantraniliprole pesticides in tomatoes, apples and soil samples. The LODs for parathion and chlorantraniliprole in the linear range of 0.02−6.50 μmol/L and 0.01−7.00 μmol/L were determined as 5.3 nmol/L and 8.1 nmol/L, respectively. The accuracy of the electrochemical methods was evaluated by spike/recovery and HPLC analysis in food and soil samples. The comparison between the electrochemical method and other analytical techniques for the determination of pesticides revealed that the electrochemical methods were not only easy to operate and fast but also highly sensitive and selective for the simultaneous determination of parathion and chlorantraniliprole residues in food and soil samples. The hybrid material demonstrated excellent stability and high sensitivity towards parathion and chlorantraniliprole pesticides.
ISSN:0925-4005
1873-3077
DOI:10.1016/j.snb.2021.130344