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Electrophoresis plates, number

Efficiency The efficiency of capillary electrophoresis is characterized by the number of theoretical plates, N, just as it is in GC or ITPLC. In capillary electrophoresis, the number of theoretic plates is determined by... [Pg.600]

Muzikar, J. van de Goor, T. Kenndler, E. The Principle Cause for Lower Plate Numbers in Capillary Zone Electrophoresis with Most Organic Solvents. Anal. Chem. 2002, 74, 434-439. [Pg.677]

TH Seals, C Sheng, JM Davis. Influence of neutral cyclodextrin concentration on plate numbers in capillary electrophoresis. Electrophoresis 22 1957-1973, 2001. [Pg.113]

In chromatography or electrophoresis, what does the plate number or number of theoretical plates describe (2 marks)... [Pg.397]

There is much interest in high-efficiency- and high-speed separation media for liquid chromatography. The plate numbers available in practice have been in the range of 10,000-30,000 in HPLC for 20 years or so, but these are low compared to well over 100,000 theoretical plates in capillary gas chromatography or in capillary electrophoresis. This is caused by the limitation in the use of small-sized particles for HPLC, where a particle-packed column is commonly used under a pressure-drop of up to 40 MPa. An increase in column efficiency by using small particles, which is the approach taken in the past, is accompanied by an increase in the pressure-drop, as expected from Eqns. 5.2 and 5.3, below. Eqns. 5.1-3 describe the efficiency (plate height) and flow resistance of a column packed with particles [1-3], where N stands for the... [Pg.178]

In capillary gel electrophoresis, one of the major contributors to band broadening, besides the injection and detection extra-column effects, is the longitudinal diffusion of the solute molecules in the capillary tube [14], The theoretical plate number (N) is characteristic of column efficiency ... [Pg.74]

Ruhr s group studied the separation of double- and single-stranded DNA restriction fragments in capillary electrophoresis with polymer solutions under alkaline conditions in epoxy-coated capillaries and found that at pH 11 the theoretical plate numbers exceeded several millions [96], At pH 12, single-stranded DNA molecules were still well separated in entangled hydroxyethylcellulose (HEC) solutions, but the resolution decreased significantly in dilute polymer solutions. [Pg.90]

In conclusion, capillary electrophoresis in carbohydrate analysis has advantages in both separation and detection over other techniques of electrophoresis, as well as chromatography. It allows high efficiency (up to a few million plate numbers) and very good sensitivities (up to femtomolar). In addition, CE permits analysis by a variety of separation modes simply by changing the electrolyte (capillary zone electrophoresis, MEKC, CGE). [Pg.306]

For enantioseparation on CSPs in CEC, nonstereospecific interactions, expressed as 4>K, contribute only to the denominator as shown in Eq. (1), indicating that any nonstereospecific interaction with the stationary phase is detrimental to the chiral separation. This conclusion is identical to that obtained from most theoretical models in HPLC. However, for separation with a chiral mobile phase, (pK appears in both the numerator and denominator [Eq. (2)]. A suitable (f)K is advantageous to the improvement of enantioselectivity in this separation mode. It is interesting to compare the enantioselectivity in conventional capillary electrophoresis with that in CEC. For the chiral separation of salsolinols using /3-CyD as a chiral selector in conventional capillary electrophoresis, a plate number of 178,464 is required for a resolution of 1.5. With CEC (i.e., 4>K = 10), the required plate number is only 5976 for the same resolution [10]. For PD-CEC, the column plate number is sacrificed due to the introduction of hydrodynamic flow, but the increased selectivity markedly reduces the requirement for the column efficiency. [Pg.630]

In theory, millions of theoretical plates per metre can be achieved with electrophoresis making this technique superior to LC, where the number of plates per column is typically in the order of tens of thousands (section 2.2). In practice, however, lower plate numbers are observed in electrophoresis. Band broadening is... [Pg.55]

The ionization and net charge of the sample components are affected significantly by changes in the pH of the sample. As a result, the migration rate, the solubility, the theoretical plate number, and the peak height could aU get affected. Proper dilution of the sample with an appropriate buffer is the first step in separation. Usually, the sample is diluted with the same solvent used as the electrophoresis buffer however, in some instances, a pH of the sample different from that of the buffer is selected to concentrate the sample on the capillary (stacking). [Pg.2081]

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See also in sourсe #XX -- [ Pg.158 , Pg.159 , Pg.165 , Pg.166 ]



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