Urea, selectors

Replacement of the carbamate group with isosteric functionalities such as an IV-methyl carbamate, urea, or amide group clearly confirmed the favorable qualities of the carbamate group [57], While the introduction of a urea group, as in case of iV-9-(tert-butylcarbamoyl)-9-desoxy-9-aminoquinine selector, instead of carbamate functionality turned out to be virtually equivalent in terms of enantiorecognition capabilities [57,58], the enantiomer separation potential was severely lost on iV-methylation of the carbamate group, like in 0-9-(N-me hy -N-tert-butylcarbamoyl)quinine [32,58], or its replacement by an amide, such as in case of Af-9-(pivaloyl)-9-desoxy-9-aminoquinine selector [57,58], For example, enantioselectivities dropped for DNB-alanine from 8.1 for the carbamate-type CSP, over 6.6 for thein-ea-type CSP, to 1.7 for the amide-type CSP, and 1.3 for the A -methyl... 

Some other cinchona alkaloid derivatives that have been synthesized and were evaluated as chiral selectors for liquid chromatographic enantiomer separation comprise CSPs based on cinchonan hydrazides [68], cinchonan ureas [42], cin-chonan amides [42], and urea-linked cinchonan-calixarene hybrid selectors [42]... 

FIGURE 1.12 CSPs on the basis carbamate and urea-linked cinchonan-calixarene hybrid selectors as examples for CSPs with complementary enantioselectivity profiles. (Reproduced from K.H. Krawinkler et al., J. Chromatogr. A, 1053 119 (2004). With permission.)... 

Abou-Basha and Aboul-Enein [22] presented an isocratic and simple HPLC method for the direct resolution of the clenbuterol enantiomers. The method involved the use of a urea-type CSP made of hS )-indoline-2-carboxylic acid and (R)-1 -(naphthyl) ethylamine known as the Chirex 3022 column. The separation factor (a) obtained was 1.27 and the resolution factor (Rs) was 4.2 when using a mobile phase composed of hexane-1,2-dichloroethane-ethanol (80 10 10, v/v/v). The (+)-enantiomer eluted first with a capacity factor (k) of 2.67 followed by a (—)-enantiomer with a k of 3.38. Biesel et al. [23] resolved 1-benzylcyclohexane-1,2-diamine hydrochloride on a Chirex D-penicillamine column. Gasparrini et al. [24] synthesized a series of the chiral selectors based on /ra s -1,2 - d i a m i n o eye I o hexane. The developed CSPs were used for the chiral resolution of arylacetic acids, alcohols, sulfoxides, selenoxides, phosphinates, tertiary phosphine oxides, and benzodiazepines. In another study, the same authors [25] described the chiral resolution of /i-aminocstcrs enantiomers on synthetic CSPs based on a re-acidic derivatives of trans- 1,2-diaminocyclohexane... 

Additional substances (buffer additives) are often added to the buffer solution to alter selectivity and/or to improve efficiency, and the wall of the capillary may be treated to reduce adsorptive interactions with solute species. Organic solvents, surfactants, urea and chiral selectors are among the many additives that have been recommended (table 4-24). Many alter or even reverse the EOF by affecting the surface charge on the capillary wall, whilst some help to solubilize hydrophobic solutes, form ion-pairs, or minimize solute adsorption on the capillary wall. Chiral selectors enable racemic mixtures to be separated by differential interactions with the two enantiomers which affects their electrophoretic mobilities. Deactivation of the capillary wall to improve efficiency by minimizing internet ions. with solute species can be achieved by permanent chemical modification such as silylaytion or the... 

Phenoxy acid herbicides, sulfonyl ureas, quaternary ammonium derivatives (quats), and aryloxy propanoic acids are the main classes of compounds subjected to capillary zone electrophoresis (CZE). Triazines are also separated using nonaqueous CZE, while low pfCa characterized chlorotriazines require an ion-pair-like solubilization using cationic surfactants (tetradecylammonium bromide, dodecyltrimethyl-ammonium bromide). Chiral selectors are added in CZE for obtaining enantioselectivity. Chiral selectors used for herbicide enantiomeric discrimination are vancomycin, y-cyclodextrin, ethyl carbonate -cyclo-dextrin, cyclohexyl-alkyl-)S-D-maltoside, sulpropyl ether a-cyclodextrin, and hexakis(2,3-di-0-methyl)-a-cyclodextrin. 

A few reports are available on chiral separations of pollutants using this modality of liquid chromatography. The separated chiral pollutants are 2-(2-chlorophenoxy)propionic acid and 2-(4-chlorophenoxy)propionic acid on n-alkyl-)8-D-glucopyranoside [17], ibuprofens on vancomycin [18] and PCBs on y-cyclodextrin [19]. Marina etal. [20] reported chiral separations of polychlorinated biphenyls (PCBs) 45, 84, 88, 91, 95, 132, 136, 139, 149, 171, 183 and 196 by MEKC using cyclodextrin chiral selectors. Mixtures of and y-cyclodextrins were used as chiral modifiers in a 2-(yV-cyclohexylamino)ethanesulfonic acid (CHES) buffer containing urea and sodium dodecyl sulfate (SDS) micelles. A mixture of PCBs 45, 88, 91, 95, 136, 139, 149 and 196 was separated into all 16 enantiomers in an... 

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