J. Hernández-Méndez scite author profile

Cloud point extraction was applied as a preconcentration step prior to capillary electrophoresis. The behavior of a surfactant-rich micellar phase injected into a capillary electrophoresis system was studied using different separation modes: micellar electrokinetic capillary chromatography and capillary zone electrophoresis (CZE). A problem that appeared on introducing a surfactant-rich phase into a bare fused silica capillary was that the surfactant was adsorbed onto the wall of the capillary, leading to a marked loss of efficiency and reproducibility both in the migration times and in the areas of the electrophoretic peaks. The use of cetyltrimethylammonium bromide dynamically coated capillaries afforded reproducible results, although the half-life of the capillary was short. The most satisfactory results were obtained by using nonaqueous media in the CZE mode, thus avoiding surfactant adsorption. Other parameters related to the composition of the injection medium were also studied to optimize the electrophoretic behavior of the analytes and the sensitivity of the determination. The optimized procedure was applied to the determination of triazines in tap and river water samples.

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Simultaneous determination of phenyl- and sulfonylurea herbicides in water by solid-phase extraction and liquid chromatography with UV diode array or mass spectrometric detection

Carabias‐Martínez

Rodríguez‐Gonzalo

Herrero‐Hernández

et al. 2004

Analytica Chimica Acta

119

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Capillary Zone Electrophoresis in Nonaqueous Solvents in the Presence of Ionic Additives

et al. 1997

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Capillary zone electrophoresis (CZE) in nonaqueous media and in the presence of ionic additives has been successfully applied to the determination of compounds that differ only slightly in their electrophoretic mobilities. Triazine herbicides of environmental interest were chosen as test compounds because they behave as very weak bases. CZE separation of these analytes (especially chlorotriazines) in aqueous solution is difficult due to the low pH required for their conversion into protonated cationic form (HA(+)). However, in mixed nonaqueous solvents, 50% (v/v) acetonitrile-methanol, the acid-base characteristics of these compounds are modified, yielding the protonated ionic species that is susceptible to migration when subjected to an electric field. A noteworthy increase in separation selectivity and resolution can be achieved by using ionic additives. Thus, in this mode of capillary zone electrophoresis, separation is based on ionic interactions between the charged analytes and the ionic additive present in the separation medium. These interactions contribute to enhancing mobility differences and to improving analyte separation. For the separation of chloro- and methylthiotriazines, 10 mM perchloric acid in 50% (v/v) acetonitrile-methanol and 20 mM SDS proved to be satisfactory, providing high resolution in short analysis times. The selectivity achieved was found to depend on the degree of association of the analyte with the ionic additive in the nonaqueous medium. This permits manipulation of the selectivity of the electrophoretic separations as a function of the type and concentration of the ionic additive and of the nature of the nonaqueous medium employed.

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Comparison of a non-aqueous capillary electrophoresis method with high performance liquid chromatography for the determination of herbicides and metabolites in water samples

Carabias‐Martínez¹,

Rodríguez‐Gonzalo²,

Miranda-Cruz³

et al. 2006

Journal of Chromatography A

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