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B Capillary Electrophoresis

Chankvetadze, B. Capillary Electrophoresis in Chiral Analysis, Wiley Chichester, UK, 1997. [Pg.546]

For a general introduction to the application of capillary electrophoresis in chiral analysis, see Chankvetadze, B. Capillary Electrophoresis in Chiral Analysis, John Wiley Sons, Ltd, Chichester, 1997. [Pg.68]

B. Capillary Electrophoresis Methods for Determination of Enantioselective Binding Constants Between Chiral Drugs and Cyclodextrins... [Pg.191]

Gao J. Y., Dubin P. L., Muhoberac B. B. Capillary electrophoresis and dynamic light scattering studies of structure and binding characteristics of pro-teins-polyelectrolyte complexes. J. Phys. Chem. B 1998 102 5529-5535. [Pg.740]

Chankvetadze, B. Capillary Electrophoresis inChiral Analysis. (John Wiley Sons, New York, 1997). Gubitz G, Schmid M.G, Recent advances in chiral separation principles in capillary electrophoresis and capillary electrochromatography. Electrophoresis, 25,3981-3996 (2004). [Pg.174]

Geimaro, L. A., Delaney, J., Vouros, R, Harvey, D. J. and Domon, B. Capillary electrophoresis/ electrospray ion trap mass spectrometry for the analysis of negatively charged derivatized and underivatized glycans. Rapid Commun Mass Spectrom, 16, 192, 2002. [Pg.288]

Cota-Rivas, M., and Vallejo-Cordoba, B., Capillary electrophoresis for meat species differentiation, /. Cap. Elec., 4, 195, 1998. [Pg.911]

Figure 6.3.1. Separation systems where the bulk flow is parallel to the direction offorce (a) elutriation (particle separation in liquids) (b) capillary electrophoresis (c) centrifugal elutriation (d) inertial impaction in particle filtration (e) distillation (flash/batch) (f) liquid extraction (separating funnel) (g) zone melting (h) normal freezing (i) cake filtration (j) ultri tration separation of proteins (dead-end) (k) batch cell reverse osmosis separation of brine (1) gas permeation. Figure 6.3.1. Separation systems where the bulk flow is parallel to the direction offorce (a) elutriation (particle separation in liquids) (b) capillary electrophoresis (c) centrifugal elutriation (d) inertial impaction in particle filtration (e) distillation (flash/batch) (f) liquid extraction (separating funnel) (g) zone melting (h) normal freezing (i) cake filtration (j) ultri tration separation of proteins (dead-end) (k) batch cell reverse osmosis separation of brine (1) gas permeation.
Figure 6.3.5. (a) Basic schematic for a capillary electrophoresis system, (b) Capillary electrophoresis separation of dansyl amino acids A, unknown impurity B, c-labeled lysine C, dilabeled lysine D, asparagine E, isoleucine F, methionine G, serine H, alanine I, glycine J and K, unknown impurities L, dilabeled cysteine M, glutamic acid N, aspartic acid O, cysteic acid. The concentration of each derivative is approximately 5 x iO M, dissolved in operating buffer (Jorgenson and Lukacs, 1981). Beprinted, with permission, from Anal. Chem., 53, 1298, (1981), Figure 1, p. 1300. Copyri t (1981) American Chemical Society, (c) Effective velocities of cationic and anionic species in the presence of electroosmotic flow in a capillary. [Pg.379]

Perkins, J. R. Tomer, K. B. Capillary electrophoresis electrospray mass-spectrometry using a high-performance magnetic-sector mass-spectrometer. Anal. Chem. 1994, 66, 2835-2840. [Pg.409]

Marsh A, Broderick M, Altria K, Power J, Donegan S, Clark B. Capillary electrophoresis for pharmaceutical analysis. Methods Mol. Biol 2008 384 205 245. [Pg.42]

Chankvetadze B. Capillary electrophoresis in chiral analysis. Chichester (U.K.) Wiley 1997. p 1-75. [Pg.1568]

See other pages where B Capillary Electrophoresis is mentioned: [Pg.316]    [Pg.1]    [Pg.5]    [Pg.249]    [Pg.262]    [Pg.175]    [Pg.590]    [Pg.373]   


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