Abstract
A micellar-enhanced photo-induced fluorescence (ME-PIF) method was developed to analyze, for the first time, oxadiazole herbicide (namely oxadiazon) in natural water samples. Photo-conversion under UV irradiation of the herbicide into strongly fluorescent photoproducts was performed in aqueous solution and in the presence of two surfactants, cetyltrimethylammonium chloride (CTAC) or Tween 20, at micellar concentrations. The ME-PIF parameters were optimized. The ME-PIF method gave very good results with satisfactory analytical performance for the determination of a selected pesticide with concentration linear dynamic ranges of over one to two orders of magnitude. It yielded good reproducibility (RSD values of between 3.6 and 9.6%) in tap, river and sea water spiked samples, and the limits of detection were in the ng mL−1 range.
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References
S. Berijani and G. Ahmadi, Iran. J. Chem. Chem. Eng., 2014, 33, 41.
S. Miyake, Y. Hirakawa, T. Yamassaki, E. Watanabe, A. Harada, S. Iwasa, and H. Narita, Anal. Sci., 2019, 35, 333.
I. Sbov, A. Khenlami Assandas, M. Catal Icarido, and J. Martnez Catatayud, Anal. Sci., 2006, 22, 21.
C. Tomlin, “The Pesticide Manual”, 16th ed., World Compendium, 2012, British Crop Protectio Council, Farnham.
J. W. Wong, M. G. Webster, C. A. Halverson, M. J. Hengel, K. K. Ngim, and S. E. Ebeler, J. Agric. Food Chem., 2003, 51, 1148.
M. D. Gil-García, M. Martínez-Galera, P. Parrilla-Vazquez, A. R. Mughari, and I. M. Ortiz-Rodríguez, J. Fluoresc., 2008, 18, 365.
A. Muñoz de la Peña, M. C. Mahedero, and A. Bautista-Sánchez, Talanta, 2003, 60, 279.
O. M. A. Mbaye, M. D. Gaye Seye, A. Coly, A. Tine, M. A. Oturan, N. Oturan, and J. J. Aaron, Microchem. J., 2013, 110, 579.
P. A. Diaw, O. M. A. Mbaye, M. D. Gaye-Seye, J. J. Aaron, A. Coly, A. Tine, N. Oturan, and M. A. Oturan, J. Fluoresc., 2014, 24, 1319.
S.-H. Zhu, H.-L. Wu, A.-L. Xia, Q.-J. Han, and Y. Zhang, Anal. Sci., 2007, 23, 1173.
L. Burel, P. Giamarchi, L. Stephan, Y. Lijour, and A. Le Bihan, J. Fluoresc., 2006, 16, 177.
P. A. Diaw, A. Maroto, O. M. A. Mbaye, M. D. Gaye-Seye, L. Stephan, A. Coly, L. Deschamps, A. Tine, J. J. Aaron, and P. Giamarchi, Talanta, 2013, 116, 569.
O. M. A. Mbaye, A. Maroto, M. D. Gaye-Seye, L. Stephan, L. Deschamps, J. J. Aaron, and P. Giamarchi, Talanta, 2015, 132, 909.
J. P. Bakhoum, O. M. A. Mbaye, P. Diaw, M. Mbaye, L. Cisse, D. Gaye-Seye, J.J. Aaron, A. Coly, B. Le Jeune, and P. Giamarchi, Anal. Lett., 2019, 52, 2782.
J. P. Bakhoum, O. M. A. Mbaye, P. A. Diaw, M. Mbaye, L. Cisse, M. D. Gaye-Seye, J. J. Aaron, A. Coly, B. Le Jeune, and P. Giamarchi, Spectrochem. Acta, Part A, 2019, 214, 285.
G. N. Piccirilli, G. M. Escandar, F. C. Cañada, I. D. Merás, and A. M. de la Peña, Talanta, 2008, 77, 852.
A. Bautista, J. J. Aaron, M. C. Mahedero, and A. Muñoz de la Pena, Analusis, 1999, 27, 857.
A. Coly and J. J. Aaron, J. Chem. Chem. Eng., 2009, 28, 33.
S. Irace-Guigand, E. Leverend, M. D. Gaye-Seye, and J. J. Aaron, Luminescence, 2005, 20, 138.
T. Nomura, Y. Asai, N. Murahashi, and K. Iwamoto, Chem. Pharm. Bull., 2000, 48, 947.
E. S. Basheva, P. A. Kralchevsky, K. D. Danov, K. P. Ananthapadmanabhanb, and A. Lipsb, Phys. Chem. Chem. Phys., 2007, 9, 5183.
Y. Guang-Guo and W. Brian, Food Contam. Agricul. Wast., 1999, 34, 549.
M. C. Mahedero, A. Munoz de la Pena, A. Bautista, and J. J. Aaron, J. Incl. Phenom., 2002, 42, 61.
A. M. Pena, M. C. Mahedero, and A. Bautista-Sanchez, J. Chromatogr. A., 2002, 950, 287.
A. M. G. Campana, J. J. Aaron, and J. M. B. Sendra, Talanta, 2001, 55, 531.
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J. P. B. thanks the Service of Cooperation and Cultural Action (SAC) of the French Embassy in Dakar (Senegal) for a French Cooperation Ph.D. grant in support of this work.
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Bakhoum, J.P., Mbaye, O.M.A., Diaw, P.A. et al. Analysis of Oxadiazon Herbicide in Natural Water Samples by a Micellar-enhanced Photo-induced Fluorescence. ANAL. SCI. 36, 447–452 (2020). https://doi.org/10.2116/analsci.19P390
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DOI: https://doi.org/10.2116/analsci.19P390