Flow Injection Analysis Using Continuous Channel Electrophoresis

J. M. Mesaros, P. F. Gavin, A. Q. Ewing

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20 Scopus citations

Abstract

Continuous zone electrophoretic separations in narrow channels coupled to small-bore capillaries have been demonstrated and characterized previously. Presented here is the use of this new technique to monitor dynamic chemical changes occurring hi a flow injection analysis system. The fundamental aspects of the data that mis type of separation generates are discussed in a comparison of static and dynamic analyses. An analysis of a dynamic separation is also provided to thoroughly outline the steps necessary to deconvolute the data. Three types of dynamic analyses, which simulate realistic analytical situations, are then examined in detail. The first of these involves the addition of a mixture of four dansylated amino acids to the flow injection system to provide several different sample duration periods. The second is the staggered addition of short-duration plugs of analyte to the system. The third is the continuous addition of one analyte at different concentrations. Quantitative information generated by these experiments includes the simultaneous determination of the time of analyte contact and its duration of contact with the sampling capillary, identification of analytes based on electrophoretic mobilities, and concentration changes with time. For the addition of a 1.52 mM solution of Nε-dansyl-L-lysine, the sample duration and time of analyte contact with the capillary was determined with an error of <4%. Concentration changes in the FIA system of dansyl-L-arginine over the range of 0.38-3.04 mM are also demonstrated with transitional edges on the time scale of 3-4 s. Qualitatively, the appearance of analyte bands can reveal impurities and fronting or tailing effects as seen in conventional capillary electrophoretic separations. The results demonstrate the ability of the technique to successfully probe dynamic environments.

Original languageEnglish (US)
Pages (from-to)3441-3449
Number of pages9
JournalAnalytical Chemistry
Volume68
Issue number19
DOIs
StatePublished - Oct 1 1996

All Science Journal Classification (ASJC) codes

  • Analytical Chemistry

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