Compounds, HPLC system

If the identity of the analyte is genuinely unknown, a farther problem is encountered. In contrast to GC, there are no HPLC systems, combinations of mobile and stationary phases, that are rontinely used for general analyses. Therefore, there are no large collections of k values that can be nsed. For this reason, retention characteristics are often nsed for identification after the nnmber of possible compounds to be considered has been greatly reduced in some way, e.g. the class of compound involved has been determined by colonr tests or UV spectroscopy. 

Another variation of the preceding method is to apply HPLC to fractionate the cleaned-up aliphatic-aromatic fraction from flash colurim separation of soluble organic matter as it is performed in the Chevron laboratory, for example, as described in Reference 2. A Waters HPLC system equipped with a preparative Whatman Partisil 10 silica column (9.4 X 500 mm), a HPLC pump, and two detectors for separation monitoring (a UV and refractive index detector) are used, giving three fractions of aliphatic hydrocarbons, mono-, di-, and triaromatics and polar compounds. The hrst two fractions are eluted with hexane, whereas polar compounds are eluted with... 

Quantitation is performed by the calibration technique. A new calibration curve is constructed with each dinifroaniline standard solution. The peak area is plotted against the injected amount of standard. Each dinifroaniline in the sample is measured by using the peak area for each standard. Before each set of measurements, the sensitivity and stability of the GC and HPLC system is ascertained by injecting more than one standard solution containing ca 0.05-2 mg L of each compound. 

Davankov, V. A., Separation of enantiomeric compounds using chiral HPLC systems. A brief review of general principles, advances, and development trends, Chromatographia, 27, 475, 1989. 

If simple sample pretreatment procedures are insufficient to simplify the complex matrix often observed in process mixtures, multidimensional chromatography may be required. Manual fraction collection from one separation mode and re-injection into a second mode are impractical, so automatic collection and reinjection techniques are preferred. For example, a programmed temperature vaporizer has been used to transfer fractions of sterols such as cholesterol and stigmasterol from a reversed phase HPLC system to a gas chromatographic system.11 Interfacing gel permeation HPLC and supercritical fluid chromatography is useful for nonvolatile or thermally unstable analytes and was demonstrated to be extremely useful for separation of compounds such as pentaerythritol tetrastearate and a C36 hydrocarbon standard.12... 

Chemical separations may first be accomplished by partitioning on the basis of polarity into a series of solvents from non-polar hexane to very polar compounds like methanol. Compounds may also be separated by molecular size, charge, or adsorptive characteristics, etc. Various chromatography methods are utilized, including columns, thin layer (TLC) gas-liquid (GLC), and more recently, high pressure liquid (HPLC) systems. HPLC has proven particularly useful for separations of water soluble compounds from relatively crude plant extracts. Previously, the major effort toward compound identification involved chemical tests to detect specific functional groups, whereas characterization is now usually accomplished by using a... 

Bergstrom et al. [63] used HPLC for determination of penicillamine in body fluids. Proteins were precipitated from plasma and hemolyzed blood with trichloroacetic acid and metaphosphoric acid, respectively, and, after centrifugation, the supernatant solution was injected into the HPLC system via a 20-pL loop valve. Urine samples were directly injected after dilution with 0.4 M citric acid. Two columns (5 cm x 0.41 cm and 30 cm x 0.41 cm) packed with Zipax SCX (30 pm) were used as the guard and analytical columns, respectively. The mobile phase (2.5 mL/min) was deoxygenated 0.03 M citric acid-0.01 M Na2HP04 buffer, and use was made of an electrochemical detector equipped with a three-electrode thin-layer cell. The method was selective and sensitive for mercapto-compounds. Recoveries of penicillamine averaged 101% from plasma and 107% from urine, with coefficients of variation equal to 3.68 and 4.25%, respectively. The limits of detection for penicillamine were 0.5 pm and 3 pm in plasma and in urine, respectively. This method is selective and sensitive for sulfhydryl compounds. 

One drawback of this approach is the relatively low sample throughput of traditional HPLC systems. The primary reason for this low throughput is that each standard and sample must be assayed under a minimum of three different isocratic conditions. Assuming a run time (injection to injection) of 10 min, it would take 50 hr to analyze 4 standards and 96 unknowns. /./PLC is ideally suited for determination of log P since it facilitates parallel analysis of a large number of compounds under identical chromatographic conditions (Table 6.4). 

As the pH of the mobile phase markedly influences the retention of ionizable compounds, it can be assumed that the separation capacity of RP-HPLC for ionizable analyses can be modified by changing the pH of the mobile phase. The theory of effect of pH gradient on the performance of RP-HPLC systems has been recently elaborated. The basic equation describing the dependence of the retention of the solute on the gradient of pH or organic modifier is ... 

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