Fabrication of a Highly Sensitive and Selective Electrochemical Imidacloprid Sensor Using a Glassy Carbon Electrode Modified With MWCNTs/SBA-15@Si-CDs Nanocomposite

Kazemifard, Nafiseh; Ensafi, Ali A.; Shirani, Marziyeh Poshteh

doi:10.1109/jsen.2021.3057940

Cited by 10 publications

(2 citation statements)

References 49 publications

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“…With the development of world agriculture, the demand for imidacloprid has increased significantly. Because of imidacloprid's low toxicity and broad-spectrum, it gradually replaces traditional highly toxic pesticides and has been widely used in agricultural production [1][2][3][4][5]. Recent scientific studies also indicate that the imidacloprid is widely residues in water, soil, vegetables, and fruits.…”

Section: Introductionmentioning

confidence: 99%

Trimetallic metal-organic frameworks (Fe, Co, Ni-MOF) derived as efficient electrochemical determination for ultra-micro imidacloprid in vegetables

et al. 2022

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The excessive use of imidacloprid in agricultural production leads to a large number of residues that seriously threaten human health. Therefore, the detection of imidacloprid has become very important. But how to quantitatively detect imidacloprid at ultra-low levels is the main challenges. In this work, trimetallic metal-organic frameworks Fe, Co, Ni-MOF (FCN-MOF) is in situ prepared on nickel foam (NF) and then used to make an electrochemical sensor in the detection of imidacloprid. FCN-MOF exhibits the characteristics of ultra-micro concentration detection for imidacloprid with high specific surface area and rich active metal centers. The high conductivity and 3D skeleton structure of the NF electrode enhance the contact site with imidacloprid and promote the transmission of electrons efficiently. All results show that the prepared electrochemical sensor has the advantages of ultra-low detection limits (0.1 pM), wide linear detection ranges (1-5×107 pM) and good sensitivity (132.91 μA pM‒1 cm‒2), as well as good reproducibility, excellent anti-interference ability, and fantastic stability. Meanwhile, the electrochemical sensor is used to determine imidacloprid in lettuce, tomato, and cucumber samples with excellent recovery (90-102.7%). The novel electrochemical sensor is successfully applied to the ultra-micro detection of imidacloprid in vegetables, which provides a new way for the efficient monitoring of imidacloprid in agriculture.

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Section: Introductionmentioning

confidence: 99%

Trimetallic metal-organic frameworks (Fe, Co, Ni-MOF) derived as efficient electrochemical determination for ultra-micro imidacloprid in vegetables

et al. 2022

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“…To solve the issues noted earlier, we need to develop a functionally modified electrode material for quantification as well as catalytic degradation, which must be environment friendly, specific, having fast responsive rate, on-site degradation capability and free form toxic solvents. Up to now, several metal/metal oxide based electrochemical techniques have been reported for either quantification or degradation of imidacloprid such as h-MoO 3 hollow microrods, 22 reduced graphene oxide/cyclodextrin, 23 MWCNTs/SBA-15@Si-CD nanocomposite, 24 Ce 2 S 3 /gum Arabic carbon flower nanocomposites, 25 Cu–rGO composite nanofibers, 26 iron based sodium persulfate, 21 silver coated titanate nanocomposite, 19 photo-Fenton and TiO 2 (ref. 27) and so forth.…”

Section: Introductionmentioning

confidence: 99%

Detection and detoxification of imidacloprid in food samples through ionic liquid-stabilized CuNi alloy nanoparticle-decorated multiwall carbon nanotubes

Kumar

Kaur

Singh

2022

Environ. Sci.: Nano

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A sensitive electrochemical sensor for nitenpyram detection based on CeO2/MWCNTs nanocomposite

Wang

Zhang

et al. 2022

Appl. Phys. A

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Fabrication of a Highly Sensitive and Selective Electrochemical Imidacloprid Sensor Using a Glassy Carbon Electrode Modified With MWCNTs/SBA-15@Si-CDs Nanocomposite

Cited by 10 publications

References 49 publications

Trimetallic metal-organic frameworks (Fe, Co, Ni-MOF) derived as efficient electrochemical determination for ultra-micro imidacloprid in vegetables

Trimetallic metal-organic frameworks (Fe, Co, Ni-MOF) derived as efficient electrochemical determination for ultra-micro imidacloprid in vegetables

Detection and detoxification of imidacloprid in food samples through ionic liquid-stabilized CuNi alloy nanoparticle-decorated multiwall carbon nanotubes

A sensitive electrochemical sensor for nitenpyram detection based on CeO2/MWCNTs nanocomposite

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