Vortex-assisted surfactant-enhanced emulsification microextraction based on solidification of floating organic drop followed by electrothermal atomic absorption spectrometry for speciation of antimony (ΙΙΙ, V)
Author:
Publisher
Springer Science and Business Media LLC
Subject
Management, Monitoring, Policy and Law,Pollution,General Environmental Science,General Medicine
Link
http://link.springer.com/content/pdf/10.1007/s10661-014-4129-3.pdf
Reference20 articles.
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2. Chamsaz, M., Eftekhari, M., Tafreshi, S., Yekkebashi, A., & Eftekhari, A. (2014). Speciation and determination of iron using dispersive liquid–liquid microextraction based on solidification of organic drop followed by flame atomic absorption spectrometry. International Journal of Environmental Analytical Chemistry, 94, 348–355.
3. De Gregori, I., Quiroz, W., Pinochet, H., Pannier, F., & Potin-Gautier, M. (2005). Simultaneous speciation analysis of Sb(III), Sb(V) and (CH3)3SbCl2 by high performance liquid chromatography–hydride generation–atomic fluorescence spectrometry detection (HPLC–HG–AFS): application to antimony speciation in sea water. Journal of Chromatography A, 1091, 94–101.
4. Fan, Z. (2005). Speciation analysis of antimony (III) and antimony (V) by flame atomic absorption spectrometry after separation/preconcentration with cloud point extraction. Microchimica Acta, 152, 29–33.
5. Gebel, T. (1997). Arsenic and antimony: comparative approach on mechanistic toxicology. Chemico-Biological Interactions, 107, 131–144.
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