In Situ Recyclable Surface-Enhanced Raman Scattering-Based Detection of Multicomponent Pesticide Residues on Fruits and Vegetables by the Flower-like MoS 2 @Ag Hybrid Substrate

Pesticides, extensively used in agriculture production, have received enormous attention because of their potential threats to the environment and human health. Hence, in this study, a kind of highly sensitive and stable hybrid surface-enhanced Raman scattering (SERS)-active substrates constructed w...

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Published inACS applied materials & interfaces Vol. 12; no. 12; pp. 14386 - 14399
Main Authors Chen, Ying, Liu, Hongmei, Tian, Yiran, Du, Yuanyuan, Ma, Yi, Zeng, Shuwen, Gu, Chenjie, Jiang, Tao, Zhou, Jun
Format Journal Article
LanguageEnglish
Published United States Washington, D.C. : American Chemical Society 25.03.2020
Subjects
Biosensing Techniques
Disulfides - chemistry
Engineering Sciences
Fruit - chemistry
Limit of Detection
Metal Nanoparticles - chemistry
Molybdenum - chemistry
Optics
Pesticide Residues - chemistry
Pesticide Residues - isolation & purification
Pesticide Residues - toxicity
Pesticides - chemistry
Pesticides - isolation & purification
Pesticides - toxicity
Photonic
Silver - chemistry
Spectrum Analysis, Raman
Vegetables - chemistry
pesticide residues
photocatalysis
SERS
flower-like MoS2@Ag hybrid
recyclable detection
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Abstract Pesticides, extensively used in agriculture production, have received enormous attention because of their potential threats to the environment and human health. Hence, in this study, a kind of highly sensitive and stable hybrid surface-enhanced Raman scattering (SERS)-active substrates constructed with flower-like two-dimensional molybdenum sulfide and Ag (MoS @Ag) has been developed, and then the above substrate was sequentially utilized in the recyclable detection of pesticide residues on several kinds of fruits and vegetables. In the first place, the excellent photocatalytic performance of the MoS @Ag hybrid substrate was demonstrated, which was attributed to the inhibition of electron-hole combination after the formation of Schottky barrier between the Ag NPs and MoS matrix. Thereafter, two calibration curves with ultra-low limits of detection (LOD) as 6.4 × 10 and 9.8 × 10 mg/mL were established for the standard solutions of thiram (tetramethylthiuram disulfide, TMTD) and methyl parathion (MP), and then the recyclable assay of their single and mixed residues on eggplant, Chinese cabbage, grape, and strawberry was successfully realized. It is interesting to note that the detection recoveries from 95.5 to 63.1% for TMTD and 92.3 to 62.6% for MP are greatly dependent on the size and surface roughness of these foods. In a word, the MoS @Ag composite matrix shows attractive SERS and photocatalysis performance, and it is expected to have the potential application on food safety monitoring.
AbstractList Pesticides, extensively used in agriculture production, have received enormous attention because of their potential threats to the environment and human health. Hence, in this study, a kind of highly sensitive and stable hybrid surface-enhanced Raman scattering (SERS)-active substrates constructed with flower-like two-dimensional molybdenum sulfide and Ag (MoS @Ag) has been developed, and then the above substrate was sequentially utilized in the recyclable detection of pesticide residues on several kinds of fruits and vegetables. In the first place, the excellent photocatalytic performance of the MoS @Ag hybrid substrate was demonstrated, which was attributed to the inhibition of electron-hole combination after the formation of Schottky barrier between the Ag NPs and MoS matrix. Thereafter, two calibration curves with ultra-low limits of detection (LOD) as 6.4 × 10 and 9.8 × 10 mg/mL were established for the standard solutions of thiram (tetramethylthiuram disulfide, TMTD) and methyl parathion (MP), and then the recyclable assay of their single and mixed residues on eggplant, Chinese cabbage, grape, and strawberry was successfully realized. It is interesting to note that the detection recoveries from 95.5 to 63.1% for TMTD and 92.3 to 62.6% for MP are greatly dependent on the size and surface roughness of these foods. In a word, the MoS @Ag composite matrix shows attractive SERS and photocatalysis performance, and it is expected to have the potential application on food safety monitoring.
Author Zhou, Jun
Gu, Chenjie
Du, Yuanyuan
Chen, Ying
Tian, Yiran
Ma, Yi
Liu, Hongmei
Jiang, Tao
Zeng, Shuwen
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  orcidid: 0000-0002-2429-3229
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  surname: Zhou
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  organization: Department of Microelectronic Science and Engineering, School of Physical Science and Technology, Ningbo University, Ningbo 315211, Zhejiang, P. R. China
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Keywords pesticide residues
photocatalysis
SERS
flower-like MoS2@Ag hybrid
recyclable detection
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Snippet Pesticides, extensively used in agriculture production, have received enormous attention because of their potential threats to the environment and human...
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SubjectTerms Biosensing Techniques
Disulfides - chemistry
Engineering Sciences
Fruit - chemistry
Limit of Detection
Metal Nanoparticles - chemistry
Molybdenum - chemistry
Optics
Pesticide Residues - chemistry
Pesticide Residues - isolation & purification
Pesticide Residues - toxicity
Pesticides - chemistry
Pesticides - isolation & purification
Pesticides - toxicity
Photonic
Silver - chemistry
Spectrum Analysis, Raman
Vegetables - chemistry
Title In Situ Recyclable Surface-Enhanced Raman Scattering-Based Detection of Multicomponent Pesticide Residues on Fruits and Vegetables by the Flower-like MoS 2 @Ag Hybrid Substrate
URI https://www.ncbi.nlm.nih.gov/pubmed/32118398
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