Stationary phase resolution optimization

Once the selectivity parameter is fixed due to the initial choices of the mobile and stationary phase, further optimization should concentrate on resolution optimization via achieving the most appropriate retention factor for the different natural products in the mixture. 

Typical normal-phase operations involved combinations of alcohols and hexane or heptane. In many cases, the addition of small amounts (< 0.1 %) of acid and/or base is necessary to improve peak efficiency and selectivity. Usually, the concentration of polar solvents such as alcohol determines the retention and selectivity (Fig. 2-18). Since flow rate has no impact on selectivity (see Fig. 2-11), the most productive flow rate was determined to be 2 mL miiT. Ethanol normally gives the best efficiency and resolution with reasonable back-pressures. It has been reported that halogenated solvents have also been used successfully on these stationary phases as well as acetonitrile, dioxane and methyl tert-butyl ether, or combinations of the these. The optimization parameters under three different mobile phase modes on glycopeptide CSPs are summarized in Table 2-7. 

Optimized HPLC separation allows most betaxanthins to be separated on a Cl8 reversed phase stationary phase according to their respective polarities. - Considerable progress was achieved by the introduction of a highly polar silica-based column, which allowed major improvement of peak resolution, especially at early... 

In practice, it is more difficult to optimize resolution as a function of the relative retentlvity than to optimize retention. Thus, unless the mixture is very complex or contains components that are particularly difficult to separate it may be possible to optimize a particular separation using the linear equation (1.72) as demonstrated by Bttre [177]. Figure 1.13 illustrates the relative change in peak position for a polarity test mixture with two identical, serially coupled open tubular columns, coated with a poly(dimethylslloxane) and Carbowax 20 M stationary phases, as a function of their relative retentlvity on the second column. The linear relationship predicted by equation (1.72) effectively predicts the relative peak positions and indicates that a nearly... 

Adequate resolution of the components of a mixture in the shortest possible time is nearly always a principal goal. Establishing the optimum conditions by trial and error is inefficient and relies heavily on the expertise of the analyst. The development of computer-controlled HPLC systems has enabled systematic automated optimization techniques, based on statistical experimental design and mathematical resolution functions, to be exploited. The basic choices of column (stationary phase) and detector are made first followed by an investigation of the mobile phase composition and possibly other parameters. This can be done manually but computer-controlled optimization has the advantage of releasing the analyst for other... 

To examine the utility of stationary phases composed of IL mixtures, a complex mixture of alcohols (both cyclic and aliphatic) and analytes with aromatic functionality were subjected to separation [41] on a stationary phase consisting of the [C4Cilm][Tf2N]. Under optimized conditions, the stationary phase was selective for most molecules, but exhibited poor resolution. Owing to the fact that most ILs containing the TfjN anion are weak hydrogen... 

In a chromatographic separation procedure the parameters of the chromatographic system (stationary phase, flow, temperature, etc.) have to be selected respectively optimized with respect to some criterion (resolution, time, etc.). In gas chromatography retention data series are published and used for the sttidy of solvent/solute interaction, prediction of the retention behaviour, activity coefficients, and other relevant information usable for optimization and classification. Several clKmometrk techniques of data anal s have been employed, e.g. PCA, numerical taxonomic methods, information theory, and j ttern recognition. 

Chromatographic Resolution. To optimize column-coating conditions and operating parameters glass capillary columns coated with various silicone-based stationary phases were tested with difficult-to-separate groups of PAH standards and Complex samples. The SE5 -coated columns performed excellently with respect to separation efficiency, column bleed and long-term stability. Other observers have had similar results with this... 

Conventional gas chromatography (GC) based on the use of chiral stationary phases can handle only a few dozen ee determinations per day. In some instances GC can be modified so that, in optimal situations, about 700 exact ee and E determinations are possible per day [29]. Such meclium-throughputmay suffice in certain applications. The example concerns the lipase-catalyzed kinetic resolution of the chiral alcohol (R)- and (S)-18 with formation of the acylated forms (R)- and (S )-19. Thousands of mutants of the lipase from Pseudomonas aeruginosa were created by error-prone PCR for use as catalysts in the model reaction and were then screened for enantioselectivity [29]. 

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