Supercritical fluid chromatography as a tool for enantioselective separation; A review

Kalíková, Květa; Šlechtová, Tereza; Vozka, Jiří; Tesařová, Eva

doi:10.1016/j.aca.2014.02.036

Cited by 148 publications

(75 citation statements)

References 184 publications

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“…Chiral selectors based on CDs became very popular for separation of stereoisomers in HPLC and also in CE, CEC, GC and SFC [1][2][3][4]. It is generally known that these cyclic oligosaccharides form inclusion complexes with a wide range of substances of suitable size and hydrophobicity.…”

Section: Introductionmentioning

confidence: 99%

Effect of Buffer Constituents on Retention and Separation in Achiral and Chiral HPLC Systems with β-Cyclodextrin-Based Stationary Phase

et al. 2014

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Section: Introductionmentioning

confidence: 99%

Effect of Buffer Constituents on Retention and Separation in Achiral and Chiral HPLC Systems with β-Cyclodextrin-Based Stationary Phase

et al. 2014

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“…1,10 From this point of view, SFC offers benefits such as higher throughput or lower analysis times than the conventional high-performance liquid chromatography (HPLC) technique. 1,[11][12][13] On the market, there are a number of chiral stationary phases (CSPs) including many of HPLC CSPs, that are suitable for enantioseparation in SFC. Regarding HPLC as well as SFC enantioseparations, polysaccharide-based CSPs are classified as the versatile ones and are extensively used.…”

Section: Introductionmentioning

confidence: 99%

Enantioselective potential of polysaccharide‐based chiral stationary phases in supercritical fluid chromatography

2017

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The enantioselective potential of two polysaccharide-based chiral stationary phases for analysis of chiral structurally diverse biologically active compounds was evaluated in supercritical fluid chromatography using a set of 52 analytes. The chiral selectors immobilized on 2.5 μm silica particles were tris-(3,5-dimethylphenylcarmabate) derivatives of cellulose or amylose. The influence of the polysaccharide backbone, different organic modifiers, and different mobile phase additives on retention and enantioseparation was monitored. Conditions for fast baseline enantioseparation were found for the majority of the compounds. The success rate of baseline and partial enantioseparation with cellulose-based chiral stationary phase was 51.9% and 15.4%, respectively. Using amylose-based chiral stationary phase we obtained 76.9% of baseline enantioseparations and 9.6% of partial enantioseparations of the tested compounds. The best results on cellulose-based chiral stationary phase were achieved particularly with propane-2-ol and a mixture of isopropylamine and trifluoroacetic acid as organic modifier and additive to CO , respectively. Methanol and basic additive isopropylamine were preferred on amylose-based chiral stationary phase. The complementary enantioselectivity of the cellulose- and amylose-based chiral stationary phases allows separation of the majority of the tested structurally different compounds. Separation systems were found to be directly applicable for analyses of biologically active compounds of interest.

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“…Carbon dioxide (CO 2 ) is a non-toxic and non-inflammable fluid and possesses a relatively low critical temperature and pressure. CO 2 is the gas of choice for supercritical processes, including chromatographic methods for enantioselective separation [18,19], chemical extraction from natural sources [20], pharmaceutical and cosmetic tailoring [21], food processing [22], as well as for processing of pharmaceuticals that can be degraded under harsh conditions. Furthermore, depending on the nature of the biologically active compound, supercritical CO 2 can be used as solvent, anti-solvent or solute [23,24].…”

Section: Introductionmentioning

confidence: 99%

Curcumin-loaded solid lipid particles by PGSS technology

Pedro

Villa

Caliceti

et al. 2016

The Journal of Supercritical Fluids

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Supercritical fluid chromatography as a tool for enantioselective separation; A review

Cited by 148 publications

References 184 publications

Effect of Buffer Constituents on Retention and Separation in Achiral and Chiral HPLC Systems with β-Cyclodextrin-Based Stationary Phase

Effect of Buffer Constituents on Retention and Separation in Achiral and Chiral HPLC Systems with β-Cyclodextrin-Based Stationary Phase

Enantioselective potential of polysaccharide‐based chiral stationary phases in supercritical fluid chromatography

Curcumin-loaded solid lipid particles by PGSS technology

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