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Comparative NMR and MS studies on the mechanism of enantioseparation of propranolol with heptakis(2,3-diacetyl-6-sulfo)-β-cyclodextrin in capillary electrophoresis with aqueous and non-aqueous electrolytes
ArticleAbstract: In our recent studies, the reversal of the enantiomer migration order (EMO) was observed with heptakPalabras claves:CE, cyclodextrins, enantiomer migration order, Propranolol, Separation mechanismsAutores:Antonio López J., Antonio Salgado, Calvo E., Chankvetadze B., Lomsadze K.Fuentes:scopusAbout the role of enantioselective selector-selectand interactions and the mobilities of diastereomeric associates in enantiomer separations using CE
ArticleAbstract: It is generally accepted that the selective binding of enantiomers of the chiral analyte to a chiralPalabras claves:CdS, enantiomer migration order, Ketoconazole, Separation mechanisms, TerconazoleAutores:Antonio Salgado, Castro-Puyana M., Chankvetadze B., Chankvetadze L., Crego A.L., Lomsadze K., Marina M.L., Martínez-Girón A.B.Fuentes:scopusSeparation of enantiomers of norephedrine by capillary electrophoresis using cyclodextrins as chiral selectors: Comparative CE and NMR studies
ArticleAbstract: In this study, the enantiomer migration order (EMO) of norephedrine (NEP) in the presence of variousPalabras claves:Analyte-selector complexes, cyclodextrins, enantiomer migration order, Enantioseparation, NorephedrineAutores:Antonio Salgado, Chankvetadze B., Crego A.L., Lomsadze K., Marina M.L., Scriba G.K.E., Vega E.D.Fuentes:scopusSeparation of propranolol enantiomers by CE using sulfated β-CD derivatives in aqueous and non-aqueous electrolytes: Comparative CE and NMR study
ArticleAbstract: Separations using CE employing non-aqueous BGE are already as well established as separations in aquPalabras claves:Aqueous and non-aqueous CE, CdS, enantiomer migration order, Propranolol, Separation mechanismsAutores:Antonio Salgado, Chankvetadze B., Crommen J., Fillet M., Lomsadze K., Rousseau A., Servais A.Fuentes:scopus