Liquid chromatography mobile phase selection

L. R. Snyder, J. L. Glajch, and J. J. Kirkland, Theoretical basis for systematic optimization of mobile phase selectivity in liquid-solid chromatography solvent-solute localization effects, /. Chromatogr. 218 (1981), 299-326. [Pg.258]

See also Liquid Chromatography Principles Column Technology Mobile Phase Selection. Thin-Layer Chromatography Method Development. [Pg.2571]

See also Capillary Electrophoresis Overview. Chir-optical Analysis. Liquid Chromatography Column Technology Mobile Phase Selection Reversed Phase Instrumentation Amino Acids. Mass Spectrometry Peptides and Proteins. Nuclear Magnetic Resonance Spectroscopy Techniques Nuclear Overhauser Effect. Proteins Traditional Methods of Sequence Determination Foods. [Pg.3564]

See also-. Analytical Reagents Purification. Distillation. Extraction Solvent Extraction Multistage Countercurrent Distribution. Liquid Chromatography Principles Mobile Phase Selection Normal Phase. [Pg.4440]

B. Waiczak, L. Morin-Allory, M. Chrdtien, M. Lafosse and M. Dreux, Factor analysis and experiment design in high-performance liquid chromatography. III. Influence of mobile phase modifications on the selectivity of chalcones on a diol stationary phase. Chemom. Intell. Lab. Syst., I (1986) 79-90. [Pg.158]

High-performance liquid chromatography (HPLC) with a micellar mobile phase or with a selective pre-column or reaction detection system has also been used to determine alkylenebis(dithiocarbamaes). ° Zineb and mancozeb residues in feed were determined by ion-pair HPLC with ultraviolet (UV) detection at 272 nm. These compounds were converted to water-soluble sodium salts with ethylenediaminetetra-acetic acid (EDTA) and sodium hydroxide. The extracts were ion-pair methylated with tetrabuthylammonium hydrogensulfate (ion-pair reagent) in a chloroform-hexane solvent mixture at pH 6.5-8.S. The use of an electrochemical detector has also been reported. ... [Pg.1091]

The popularity of reversed-phase liquid chromatography (RPC) is easily explained by its unmatched simplicity, versatility and scope [15,22,50,52,71,149,288-290]. Neutral and ionic solutes can be separated simultaneously and the rapid equilibration of the stationary phase with changes in mobile phase composition allows gradient elution techniques to be used routinely. Secondary chemical equilibria, such as ion suppression, ion-pair formation, metal complexatlon, and micelle formation are easily exploited in RPC to optimize separation selectivity and to augment changes availaple from varying the mobile phase solvent composition. Retention in RPC, at least in the accepted ideal sense, occurs by non-specific hydrophobic interactions of the solute with the... [Pg.202]