Abstract:In this review research papers on the application of CEC are summarized that have been published between May 2003 and May 2005. First, a short overview is given of trends and developments in CEC that may increase the applicability of the separation technique. Next, application-oriented research using CEC is described in biochemical studies, including proteomics and genomics, in the analysis of food and natural products, and in pharmaceutical, industrial, and environmental analysis.
“…CEC is a hybrid separation technique, which combines the selectivity of HPLC with the high efficiency of CE [18,19]. Using CEC, compounds with closely similar properties can be resolved in a short time with minimal solvent consumption.…”
The separation and determination of tocopherols (Ts) in vegetable oils by CEC using methacrylate ester-based monolithic columns has been developed. The effects of pore size of the monolithic columns were studied, and the composition of mobile phase was optimized. The optimal pore size of the monolith was obtained with 12 wt% 1,4-butanediol in the polymerization mixture. Excellent resolution between tocopherols was achieved within 10 min analysis time with a 99:1 v/v MeOH-aqueous buffer containing 5 mM tris(hydroxymethyl)aminomethane at pH 8.0. The LODs were lower than 2.3 microg/mL, and interday and column-to-column reproducibilities at 25 microg/mL were better than 5.6%. Using a 93:7 v/v MeOH-aqueous buffer, both tocopherols and tocotrienols (T(3)s) of grapeseed and palm oils were resolved. Application to the detection of olive oil adulteration with low-cost edible oils was demonstrated.
“…CEC is a hybrid separation technique, which combines the selectivity of HPLC with the high efficiency of CE [18,19]. Using CEC, compounds with closely similar properties can be resolved in a short time with minimal solvent consumption.…”
The separation and determination of tocopherols (Ts) in vegetable oils by CEC using methacrylate ester-based monolithic columns has been developed. The effects of pore size of the monolithic columns were studied, and the composition of mobile phase was optimized. The optimal pore size of the monolith was obtained with 12 wt% 1,4-butanediol in the polymerization mixture. Excellent resolution between tocopherols was achieved within 10 min analysis time with a 99:1 v/v MeOH-aqueous buffer containing 5 mM tris(hydroxymethyl)aminomethane at pH 8.0. The LODs were lower than 2.3 microg/mL, and interday and column-to-column reproducibilities at 25 microg/mL were better than 5.6%. Using a 93:7 v/v MeOH-aqueous buffer, both tocopherols and tocotrienols (T(3)s) of grapeseed and palm oils were resolved. Application to the detection of olive oil adulteration with low-cost edible oils was demonstrated.
“…In addition, some other published reviews were focused on discussing the different applications of a particular CE technique, including food analysis. This is the case for instance of CE coupled to mass spectrometry (MS) [15][16][17], electrochromatography [18], CE coupled to chemiluminiscence detection [19], microemulsion electrokinetic chromatography (MEEKC) [20], sample treatment prior to CE-MS [21].…”
“…A number of review articles have been published recently which deal with the new stationary phases [8,11] and applications of CEC [5,8,11]. A recent trend in CEC research is the development and application of monolithic materials [11] which are fritless, and therefore overcome the problems generated by frits used in conventional packed columns.…”
Recent advances in CE and CEC separation, detection and sample preparation/preconcentration methodologies, for the determination of a variety of compounds having current or potential environmental relevance, have been overviewed. The reviewed literature has illustrated the wide range of CE applications available, indicating a continuing interest in CE and CEC in the environmental field. New developments in chip-based CE systems are also discussed.
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