共查询到20条相似文献,搜索用时 15 毫秒
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A M Stalcup J R Faulkner Y Tang D W Armstrong L W Levy E Regalado 《Biomedical chromatography : BMC》1991,5(1):3-7
The optical purity of scopolamine derived from Datura sanguinea was determined using coupled column chromatography. A C18 column was used to separate scopolamine from the additional alkaloids and other biological material present in the vegetal extract. The C18 column was coupled through a six-port switching valve to two beta-cyclodextrin columns in series which were used to resolve the scopolamine enantiomers. A single acetylated beta-cyclodextrin column gives equivalent results to the native cyclodextrin columns because of slightly higher enantioselectivity for scopolamine. A multistep extraction procedure is used to isolate scopolamine from the vegetal material. 4-6% of the scopolamine in the final extract was found to be the d enantiomer. Sample extracts as well as commercial scopolamine hydrobromide were treated under various conditions commonly encountered during typical commercial extraction procedures and analyzed in order to determine if the d enantiomer was present in the original material or if it was produced during the extraction process and, if so, determine which step and conditions contribute to racemization. Both the salt and the extract were found to be susceptible to racemization under basic conditions (greater than or equal to pH 9) although the extract appeared to be more susceptible than the salt. Tropic acid formed from the hydrolysis of scopolamine seemed to be completely racemized even though the remaining scopolamine was only partially racemized. Within experimental error, no d enantiomer was found in the original fresh plant material. 相似文献
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Capillary supercritical fluid chromatography (SFC) is proving to be a viable and useful separation method for thermally labile and nonvolatile materials. As with other capillary chromatographic techniques, very fast separations can be accomplished by sacrificing total efficiency and optimizing the conditions for rapid analysis. This is achieved using short, small-bore capillary columns, increased mobile phase linear velocities and very fast pressure programming rates. These principles are demonstrated for the rapid separation of selected component systems. 相似文献
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High resolution separations of selected commercial azo, aniline, and anthraquinone dyes by capillary column supercritical fluid chromatography (SFC) are demonstrated. Supercritical n-pentane was used as a mobile phase and provided efficient separations of multi-functional, polar disperse dyes with molecular weights up to approximately 700 daltons. 相似文献
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Summary Using packed column supercritical fluid chromatography on-line with capillary gas chromatography, gasolines have been characterized with respect to the separation of hydrocarbon classes as a group as well as a detailed fingerprinting of individual components within the classes. Using selective heartcutting, specific gasoline peaks were transferred to the capillary gas chromatograph as they eluted from the supercritical fluid chromatograph. Quantitative information was collected simultaneously from the flame ionization detectors that were used on both chromatographs. This report will describe the operational chromatographic conditions that were used for gasoline separations as well as provide results of quantitative heartcut reproducibility experiments of gasolines and hydrocarbon standards.
Charakterisierung von Benzinen durch on-line-Kombination von multidimensionaler Chromatographie mit überkritischen fluiden Phasen und Capillar-Gas-Chromatographie相似文献
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S. M. Fields R. C. Kong J. C. Fieldsted M. L. Lee P. A. Peaden 《Journal of separation science》1984,7(6):312-318
Fused silica capillary columns with internal diameters from 100 to 25 μm were coated with SE-54 and evaluated under supercritical fluid chromatographic conditions using carbon dioxide as mobile phase. Experimental results compared well with theoretical predictions. At ten times the optimum mobile phase velocity and for a capacity factor, k of 3, efficiencies of 2300 to 5600 plates m?1 were obtained for column diameters of 100 to 25 μm, respectively. 相似文献
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A new analytical technique combining on-line supercritical fluid chromatography with capillary gas chromatography has been developed. The supercritical fluid sample effluent is decompressed through a restrictor directly into a conventional capillary gas chromatographic injection port. This technique allows for not only direct (100%) sample transfer from the supercritical fluid chromatograph to the gas chromatograph but also for selective or multi-step heartcutting of various sample peaks as they elute from the supercritical fluid chromatograph. Heartcut times are determined by monitoring the responses from the flame ionization or ultraviolet absorbance detectors on the supercritical fluid chromatograph. This report describes the operational setup and provides the results of heartcut reproducibility experiments using normal hydrocarbon and aromatic test mixtures. Results from studies where operational parameters were varied, such as GC injector temperature, will also be provided. The potential usefulness of this new technique for selective heartcutting will also be demonstrated using complex hydrocarbon streams. 相似文献
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Summary Liquid crystal polysiloxane stationary phases were prepared by coating two different polymers on deactivated porous silica particles (10 m diameter, 80 Å pores). Deactivation of the silica particles before coating was necessary to prepare highly efficient and inert stationary phases for supercritical fluid chromatography (SFC). Fat-soluble vitamins E, A, K1, K2, D2, and D3 were separated on these columns using neat supercritical CO2 as mobile phase. The analyses were completed within 40 min at 70 °C. The results were compared to those obtained using a capillary column packed with less ordered liquid crystalm,m-cyanobiphenyl-substituted polysiloxane coated particles. Reduced shape selectivity was observed with this cyanobiphenyl phase. The response factors of vitamins A, E, K1, K2, D2, and D3 when using the flame ionization detector (FID) were determined to be very similar. 相似文献
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Gyllenhaal O 《Journal of chromatography. A》2004,1042(1-2):173-180
This paper describes packed column supercritical fluid chromatography (SFC) for the analysis of a peroxysome proliferator-activating gamma-receptor agonist that is a carboxylic acid. Evaluation of conditions for the separation of this candidate drug and related compounds in bulk substance is described. A Chiralcel OD column was used for this purpose due to its high selective retention of related substances and relative inertness, though the enantioselectivity was negligible, with methanol as polar modifier. A high enantioselectivity was obtained on Chiralpak AD and it was possible to determine the enantiomeric purity within 10 min on a 5 cm short column. Both the achiral and the chiral systems were run without acid additive in the mobile phase and the level of detection of impurities by area was about 0.1%. For the analysis of samples dissolved in water, without any isolation step, 2-propanol was used as modifier. Due to the column surface activity, evidently generated by injected water, citric acid 1 mM was included as additive in the 2-propanol in order to maintain symmetric and undistorted peak shape. The detection limit for the assay was 21 microg mL(-1) (50 nmol mL(-1)) for 5 microL injected (R.S.D. 6.4%, n = 8). A 5 cm short Chiralcel OD column was used. Determination of enantiomeric purity of the drug in aqueous samples required increased sensitivity. The sample was acidified and extracted into a small volume of 1-pentanol, out of which 25 microl was analyzed by SFC. The minor enantiomer at the 3% (w/w) level added could be confirmed. Its ratio remained constant during the procedure as measured relative to a reference solution in organic media. 相似文献
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A new method to accurately deliver small amounts (0.5 to 20 mol%) of modifier into CO2 was used to study the effects of three different modifiers (methanol, water, and formic acid) in packed capillary column SFC. The method allows the use of different modifiers, with minimal instrument modification. The effects of the different modifiers at different concentrations on retention and peak shape are shown by analyzing a polarity test mixture and a sample of free fatty acids. 相似文献
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Summary Fast separations of perfluorinated polyethers and polymethylsiloxanes that are composed of 50–80 oligomers were demonstrated
in packed capillary column supercritical fluid chromatography (SFC) using a carbon dioxide mobile phase. Separations were
accomplished within 10 min using a 13 cm×250 μm i.d. column packed with 2 μm porous octadecyl bonded silica (ODS) particles.
Effects of particle diameter of the packing material and pressure programming on separation were investigated, and packed
column SFC was compared with open tubular column SFC. Results show that as the particle diameter was decreased from 5 to 3
to 2 μm and the column length was reduced from 85 to 43 to 13 cm, the separation time could be reduced from 70 to 20 to 10
min while still maintaining similar separation (resolution). Short columns packed with small porous particles are very suitable
for fast SFC separations of polymers. 相似文献
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Supercritical fluid chromatography (SFC) sometimes exhibits GC-like behavior and sometimes LC-like behavior, depending on conditions. However, it is not always clear whether one of these types of behavior, or a combination, operates for a particular set of conditions for every solute in a mixture. For example, some components may be partitioned mostly by their vapor pressures, while others, in the same mixture, are partitioned predominantly by solvent-like properties of the mobile phase. Plots of retetion (as log of the capacity factor) vs. reciprocal temperature at constant pressure reveal a clear change in the character of the separation of well-behaved solutes. A thermodynamic explanation of the observed behavior is given, based on the assumption that partitioning is controlled by the heats of solution of solute in the mobile and stationary phases. A model of SFC retention as it deviates from pure-GC behavior on the same column is presented. 相似文献
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Summary Spherical porous silica particles (10 μm diameter, 300 ? and 80 ? pores), spherical nonporous silica particles (10 μm diameter),
and irregular porous silica particles (≈ 10 μm diameter, 80 ? pores) were deactivated with polymethylhydrosiloxane (PS). The
surface activities of the deactivated silica particles were investigated using various polar compounds under supercritical
fluid chromatography (SFC) conditions (neat CO2), and compared with a commercial C18-bonded phase. The small pore (80 ?) silica particles could be more completely deactivated than larger pore (300 ?) and nonporous
silica particles. The success of the PS deactivation method is ascribed to the excellent match between the reactive groups
on the polymer backbone and the silica surface, and the formation of a highly crosslinked polymeric layer over the surface.
Physical processes, such as adsorption and desorption of the deactivation reagent on the surface and diffusion from the surface,
were found to have important effects on the deactivation. Using capillary columns packed with PS deactivated silica particles,
typical polar organic compounds, including hydroxyl-containing compounds, carbonyl-containing compounds, free amines, and
free carboxylic acids, were separated by SFC and compared with results from a commercial C18-bonded phase. While the results clearly show that the PS deactivated particles were more inert than the C18-bonded phase, better deactivation methods are still needed for separation of free acids and alkylamines. 相似文献
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Capillary supercritical fluid chromatography has been directly coupled with supercritical fluid extraction using modified carbon dioxide. The mixed fluids were prepared with a single pump on-line mixing system. The most important step in the SFE-SFC interface was the elimination of the modifier solvent. This was achieved by use of a coupled trap, 0.1 mm i.d. and 0.53 mm i.d. capillary tubing connected in series, with the collected solutes refocused on the second (0.53 mm i.d.) trap before transfer into the separation column. This enabled complete elimination of various modifier solvents and high efficiency collection of the solutes. The effect of the modifier on trapping efficiency was investigated using methanol, ethanol, dichloromethane, hexane, and toluene at a variety of concentrations. n-Eicosane was, for example, trapped quantitatively by modified carbon dioxide containing up to 13 % (w/w) methanol. The use of the technique has been demonstrated by selective extraction of n-paraffins, fatty acid methyl esters, and alcohols from a silica matrix; the effect of different modifiers on the extraction of a mixture of pesticides from soil has also been investigated. 相似文献
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Toribio L Alonso C del Nozal MJ Bernal JL Martín MT 《Journal of chromatography. A》2006,1137(1):30-35
Omeprazole, a widely used antiulcer drug, has been enantiomerically separated at semipreparative scale on a polysaccharide based chiral stationary phase by supercritical fluid chromatography (SFC). For this work, a modular supercritical fluid chromatograph was adapted to operate at semipreparative scale and a Chiralpak AD (250 mm x 10 mm) column was used. The effect of two organic modifiers (ethanol and 2-propanol) was studied, and different injection volumes and concentrations of the omeprazole racemic mixture were evaluated in order to obtain high enantiomeric purities and production rates. Better results were achieved using concentration overloading instead of volume overloading. The recoveries decreased when the requirements of enantiomeric purity or the load increased, but it was possible to recover 100% of both enantiomers at an enantiomeric purity higher than 99.9% under some loading conditions, like injecting 1 and 2 ml of a solution of 3g/l. As far as production rates are concerned, the best result for S-(-)-omeprazole at that purity (27.2mg/h) was achieved with sample concentrations of 10 g/l and the injection of 2 ml, while a volume of 4 ml was better in the case of R-(+)-omeprazole (20.5mg/h). 相似文献
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Summary Polyethylene oxide (PEO)-based polymers with hydroxy, methoxy, and aminopropoxy terminal groups were coated on diol functionalized and hexamethyldisilazane end-capped silica particles. Proton-donor and proton-acceptor test solutes, including carboxylic acids, hydroxy-containing compounds, arylamines, and alkylamines were used to evaluate the chromatographic performances of these polymer coated particles under SFC conditions with neat CO2 as mobile phase. It was found that the particles coated with hydroxy-terminated PEO were suitable for the separation of proton-donor compounds such as hydroxy-containing compounds and carboxylic acids, and the particles coated with aminopropoxy-terminated PEO could be used for the separation of amines. That is, the proton-accepting stationary phase is suitable for the separation of proton accepting solutes, including strong basic alkylamines (pKb4), using neat CO2 as mobile phase, while the protondonating stationary phase is suitable for the separation of proton-donating compounds such as carboxylic acids (pKa4). Hydrogen bond basicity was found to be a critical factor for the chromatography of basic amines. Low volatility acidic and basic drugs were chromatographed using the new stationary phases. The stability of the PEO coated particles was determined by measuring the loss of organic carbon under SFC conditions. It was found that approximately 18 % of the coating (average molecular weight of 15,000) was washed out of the particles by supercritical CO2 after 7 h at 350 atm and 50°C 相似文献