Chromatographic components

Figure 2.1 Automated chromatograph. Components solid line, liquid flow line dotted line, communication line SI, S2, and S3, solvent reservoirs DG, degassing system VI, V2, and V3, valves Pu, pump Pre, pressure sensor Inj, injector ...

These constants, which are related to the structure of the molecules, allow an evaluation of the forces of interaction between the stationary phase and the solute for different classes of compounds. An index with an elevated value indicates that the stationary phase has a strong affinity for compounds that contain particular organic functions. This leads to a greater selectivity for this type of compound. For example, in order to separate an aromatic hydrocarbon contained in a mixture of ketones, a stationary phase for which benzenes have a very different constant than butanone will be selected. These differences in indices appear in most manufacturers catalogues of chromatographic components (Table 2.1). McReynolds constants have more or less replaced Rohrschneider constants, which are based on the same principle but use different reference compounds. 

Figure 9. Configuration of the DS-IC system A, clean air input B, mass-flow controller C, permeation device chamber D and H, vents E, needle valve-rotameter F, needle valve G, mass-flow meter I, diffusion scrubber Jy scrubber liquid reservoir K, needle valve-rotameter L, suction pump M, injection valve Ny peristaltic pump O, eluent flow F, downstream chromatographic components and Q, sample loop. (Reproduced from reference 96.

Techniques of chromatographic analysis continue to develop and for up-to-date methods, the specialist literature should be consulted [62, 63]. In all cases, reaction samples have to be taken at known time intervals and quenched by an appropriate method (sudden cooling, change of pH, dilution, etc.) before chromatographic analysis. It is important to check the stability of the reaction component to the chromatographic and work-up conditions. For example, are the compounds to be analysed thermally stable to the GC conditions (Conditions inside a GC injection port and, indeed, within the column are not unlike those of a heterogeneous catalytic reactor ) Are they stable to the pH of the HPLC eluent An obvious restriction is that chromatographic component analysis does not lend itself to the study of fast reactions. 

Confirmation of the identity of the gas chromatographic components has been accomplished by thin layer chromatography, relative retention times on different gas chromatographic columns, "p" values, and most recently by mass spectrometry. Dicofol can be separated from its phenone by using a Florisil column (17) or TLC. Dehydrochlorination of dicofol to DBP can be used as a confirmatory test for the parent compound. Gajan and Lisk (23) used cathode ray polarography to analyze vegetables for dicofol residues. 

Due to its ability to withstand high pressure, its relative low cost, and inertness, stainless steel has become the standard material of columns and other chromatographic components. However, under certain circumstances, stainless steel has been shown to interact with the sample and the mobile phase [39]. The best known example is chloride salt corrosion of stainless steel. Data indicate that nearly all common eluents dissolve iron from stainless steel [39]. It appears that proteins also adsorb to stainless steel [39], The adsorption process is fast, whereas desorption is slow, a result which leads to variable protein recoveries. A number of manufacturers are offering alternatives to stainless components with Teflon -lined columns and Teflon frits. Titanium is being explored as an alternative to stainless steel. A cheaper and simpler procedure is to oxidize the surface of the stainless steel with 6N nitric acid. This procedure should be repeated about every 6 months. 

The use of microprocessors for the control of the chromatograph components as well as for the acquisition and archival storage of data will be required for complex multicomponent analyses as well as to handle large numbers of samples and the large volumes of data generated. 

Epsilon-Amino-n-Caproic Acid (EACA), C.P., homogeneous (Mann Research Labs.) in concentration of O.IM 0.4 ml per experiment was added. Plasminogen, human, purified (Mann Research Labs.) in concentration of 1 mg/ml VS (15 RPMI units/mg) 0.4 ml was added per experiment. Approximately 44-45 unit amounts (dissolved in VS) of Streptokinase (SK), 100,000 Christensen units/vial. 0.1 mg = 400 units (Lederle Laboratories) was used per experiment. Trypsin Inhibitor, Soybean (SBTI), chromatographic (component VI, salt free, lyoph.), 10,000 BAEE units of inhibition per mg (Mann Research Labs.), was... 

Column efficiency can affect S/N measurements therefore analysts should account for both the type and the age of the column when determining the LOD. The maintenance status of chromatographic components (e.g., detectors and injectors) will also affect the ability to measure limits.In trace analysis, the LOD is greatly influenced by the recovery of the compound adsorption to glassware, instability or volatility, incomplete reaction (during derivatization), and poor laboratory technique are some of the causes of sample loss during analysis. 

As discussed in the previous section, the concept of unified chromatography as agreed upon by the pioneers of this technique includes the use of the same chromatographic components (injector, column, and detector) performing GC, SFC, and LC separations. Because it is very common from the beginning, unified chromatography allows several combinations of chromatographic... 

The value chosen for resolution R Is dependent upon the requirements of th separation. If co onent detection Is the sole objective, R depends upon the methods available to discriminate between adjacent components. As an example, the sophisticated multi-wavelength spectroscopic detection of overlapping chromatographic components allows the magnitude of Rj to approach very small values (3). Subtle differences In the ss spectra of eluting components can also be used to reduce R. ... 

Guerin M.R., G. Olerich, and A.D. Horton Routine gas chromatographic component profiling of cigarette smoke for the identification of biologically significant constituents J. Chromat. Sci. 12 (1974) 385-391. 

Instead of a packing composed of an organic coating on a spherical solid support acting as the stationary phase of the chromatographic component of a CEC system, we may avail... 

These aliphatic compounds are gas chromatographable and do not account for the nonvolatile components in the gasifier tar samples. Most likely, higher molecular weight polynuclear aromatic hydrocarbons eluted in Sephadex LH-20 Fraction 4 and the more polar compounds eluted in Fractions 5 and 6 of many of the tar samples contribute to the non-gas chromatographable components. 

Figure 6 shows the GCxGC-pECD contour plot obtained on BPX-172xBPX-50 for the chromatographic components of a fish oil sample, in which a waving band was produced when a relatively fast temperature ramp was applied to the... 

As Figure 10.2 shows, before purification, there are four major chromatographic components in the UV trace (Figure 10.2B), and the purity of the desired compound is 54.9%. After purification, impurities at 1.7 and 2.1 are significantly reduced, while the one at 2.6 is eliminated as well as the front shoulder of the target (Figure 10.2A). 

In these separations, use of a moderately high concentration of an alkylammonium salt in the electrolyte again adds a chromatographic component to CE. Sample anions migrating electrophoretically toward the detector are slowed by transient association with alkylammonium cations moving in the opposite direction. 

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