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Journal Abstract Search

327 related items for PubMed ID: 34482881

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  • 5. Facile extraction and determination of organophosphorus pesticides using poly (8-hydroxyquinoline) functionalized magnetic multi-walled carbon nanotubes nanocomposite in water, fruits, and vegetables samples.
    Shahsavani A, Fakhari AR.
    Food Chem; 2024 Jul 30; 447():138848. PubMed ID: 38458129
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  • 6. Solid-phase extraction using chloropropyl functionalized sol-gel hybrid sorbent for simultaneous determination of organophosphorus pesticides in selected fruit samples.
    Veloo KV, Ibrahim NAS.
    J Sep Sci; 2020 Aug 30; 43(15):3027-3035. PubMed ID: 32386268
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  • 8. Combination of solid-phase extraction with dispersive liquid-liquid microextraction followed by GC-MS for determination of pesticide residues from water, milk, honey and fruit juice.
    Shamsipur M, Yazdanfar N, Ghambarian M.
    Food Chem; 2016 Aug 01; 204():289-297. PubMed ID: 26988504
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  • 9. Synthesis of a magnetic sorbent and its application in extraction of different pesticides from water, fruit, and vegetable samples prior to their determination by gas chromatography-tandem mass spectrometry.
    Yadeghari A, Farajzadeh MA.
    J Chromatogr A; 2021 Jan 04; 1635():461718. PubMed ID: 33229005
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  • 10. Riboflavin as a green sorbent in dispersive micro-solid-phase extraction of several pesticides from fruit juices combined with dispersive liquid-liquid microextraction.
    Abbasalizadeh A, Sorouraddin SM, Farajzadeh MA, Marzi E, Afshar Mogaddam MR.
    J Sep Sci; 2022 May 04; 45(9):1550-1559. PubMed ID: 35220687
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  • 11. Hyphenated dispersive solid- and liquid-phase microextraction technique based on a hydrophobic deep eutectic solvent: application for trace analysis of pesticides in fruit juices.
    Sereshti H, Jamshidi F, Nouri N, Nodeh HR.
    J Sci Food Agric; 2020 Apr 04; 100(6):2534-2543. PubMed ID: 31975389
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  • 13. Eco-friendly thermosensitive magnetic-molecularly-imprinted polymer adsorbent in dispersive solid-phase microextraction for gas chromatographic determination of organophosphorus pesticides in fruit samples.
    Seebunrueng K, Tamuang S, Jarujamrus P, Saengsuwan S, Patdhanagul N, Areerob Y, Sansuk S, Srijaranai S.
    Food Chem; 2024 Jan 01; 430():137069. PubMed ID: 37562262
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  • 14. New magnetic graphene-based inorganic-organic sol-gel hybrid nanocomposite for simultaneous analysis of polar and non-polar organophosphorus pesticides from water samples using solid-phase extraction.
    Rashidi Nodeh H, Wan Ibrahim WA, Kamboh MA, Sanagi MM.
    Chemosphere; 2017 Jan 01; 166():21-30. PubMed ID: 27681257
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  • 16. Development of homogeneous dispersive solid phase extraction using albumin as a green sorbent and its combination with dispersive liquid-liquid microextraction: application in extraction of pesticides from fruit juices.
    Afshar Mogaddam MR, Farajzadeh MA, Abbasalizadeh A, Nemati M, Alizadeh Nabil AA, Tuzen M, Pourali A.
    Anal Methods; 2023 Aug 24; 15(33):4187-4193. PubMed ID: 37581438
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  • 18. Magnetic Cu: CuO-GO nanocomposite for efficient dispersive micro-solid phase extraction of polycyclic aromatic hydrocarbons from vegetable, fruit, and environmental water samples by liquid chromatographic determination.
    Asfaram A, Dil EA, Arabkhani P, Sadeghfar F, Ghaedi M.
    Talanta; 2020 Oct 01; 218():121131. PubMed ID: 32797888
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  • 19. Application of fabric phase sorptive extraction with gas chromatography and mass spectrometry for the determination of organophosphorus pesticides in selected vegetable samples.
    Kaur R, Kaur R, Rani S, Malik AK, Kabir A, Furton KG.
    J Sep Sci; 2019 Feb 01; 42(4):862-870. PubMed ID: 30600583
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  • 20. MIL-101 (Cr) @ graphene oxide-reinforced hollow fiber solid-phase microextraction coupled with high-performance liquid chromatography to determine diazinon and chlorpyrifos in tomato, cucumber and agricultural water.
    Darvishnejad F, Raoof JB, Ghani M.
    Anal Chim Acta; 2020 Dec 15; 1140():99-110. PubMed ID: 33218494
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