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Journal Abstract Search

173 related items for PubMed ID: 33059442

  • 21. High-performance liquid chromatographic determination of benomyl and carbendazim residues in apiarian samples.
    Bernal JL, del Nozal MJ, Toribio L, Jiménez JJ, Atienza J.
    J Chromatogr A; 1997 Nov 07; 787(1-2):129-36. PubMed ID: 9408999
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  • 22. Optimization of a matrix solid-phase dispersion method for the determination analysis of carbendazim residue in plant material.
    Michel M, Buszewski B.
    J Chromatogr B Analyt Technol Biomed Life Sci; 2004 Feb 05; 800(1-2):309-14. PubMed ID: 14698271
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  • 23. Chromatographic analysis of imazalil and carbendazim in fruits. Method validation and residue monitoring program 1995.
    Garrido J, de Alba M, Jimenez I, Casado E, Folgueiras ML.
    J Chromatogr A; 1997 Mar 21; 765(1):91-7. PubMed ID: 9129304
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  • 24. Determination of imidacloprid and benzimidazole residues in fruits and vegetables by liquid chromatography-mass spectrometry after ethyl acetate multiresidue extraction.
    Fernández-Alba AR, Tejedor A, Agüera A, Contreras M, Garrido J.
    J AOAC Int; 2000 Mar 21; 83(3):748-55. PubMed ID: 10868600
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  • 27. Determination of residues of propamocarb in wine by liquid chromatography-electrospray mass spectrometry with direct injection.
    Taylor JC, Hird SJ, Sykes MD, Startin JR.
    Food Addit Contam; 2004 Jun 21; 21(6):572-7. PubMed ID: 15204535
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  • 31. Determination of dithiocarbamate fungicide residues by liquid chromatography/mass spectrometry and stable isotope dilution assay.
    Crnogorac G, Schwack W.
    Rapid Commun Mass Spectrom; 2007 Jun 21; 21(24):4009-16. PubMed ID: 18000839
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  • 32. Mixed-mode solid-phase extraction and cleanup procedures for the liquid chromatographic determination of thiabendazole and carbendazim in fruit juices.
    Young MS, Phillips DJ, Iraneta PC, Krol J.
    J AOAC Int; 2001 Jun 21; 84(2):556-61. PubMed ID: 11324625
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  • 33. Analytical methods applied to the determination of pesticide residues in foods of animal origin. A review of the past two decades.
    LeDoux M.
    J Chromatogr A; 2011 Feb 25; 1218(8):1021-36. PubMed ID: 21236435
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  • 35. Ratiometric fluorescent sensing carbendazim in fruits and vegetables via its innate fluorescence coupling with UiO-67.
    Han Y, He X, Yang W, Luo X, Yu Y, Tang W, Yue T, Li Z.
    Food Chem; 2021 May 30; 345():128839. PubMed ID: 33340894
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  • 36. Colloidal gold-based lateral flow immunoassay with inline cleanup for rapid on-site screening of carbendazim in functional foods.
    Qin J, Lu Q, Wang C, Luo J, Yang M.
    Anal Bioanal Chem; 2021 Jun 30; 413(14):3725-3735. PubMed ID: 33851226
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  • 38. Portable and quantitative detection of carbendazim based on the readout of a thermometer.
    Fu R, Zhou J, Liu Y, Wang Y, Liu H, Pang J, Cui Y, Zhao Q, Wang C, Li Z, Jiao B, He Y.
    Food Chem; 2021 Jul 30; 351():129292. PubMed ID: 33626465
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  • 39. Degradation pattern and risk assessment of carbendazim and mancozeb in mango fruits.
    Devi PA, Paramasivam M, Prakasam V.
    Environ Monit Assess; 2015 Jan 30; 187(1):4142. PubMed ID: 25407993
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  • 40. Facile synthesis of single-crystalline Fe-doped copper vanadate nanoparticles for the voltammetric monitoring of lethal hazardous fungicide carbendazim.
    Yamuna A, Chen TW, Chen SM, Jiang TY.
    Mikrochim Acta; 2021 Jul 28; 188(8):277. PubMed ID: 34322766
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