High-performance liquid chromatography modes

High-performance liquid chromatography modes, procedures and applications (D7)... 

Unfortunately, most column and sorbent manufacturers do not develop column packing materials mainly for SEC work, but for the bigger high-performance liquid chromatography (HPEC) market. However, there are many important differences to consider when designing packings for different modes of chroma-... 

Ferguson PL, Iden CR, Brownawell BJ (2001) Analysis of nonylphenol and nonylphenol ethoxylates in environmental samples by mixed-mode high performance liquid chromatography-electrospray mass spectrometry. J Chromatogr A 938 79-91... 

In another study, the authors reported a comparative study of the enantiomeric resolution of miconazole and the other two chiral drugs by high performance liquid chromatography on various cellulose chiral columns in the normal phase mode [79], The chiral resolution of the three drugs on the columns containing different cellulose derivatives namely Chiralcel OD, OJ, OB, OK, OC, and OE in normal phase mode was described. The mobile phase used was hexane-isopropanol-diethylamine (425 74 1). The flow rates of the mobile phase used were 0.5, 1, and 1.5 mL/min. The values of the separation factor (a) of the resolved enantiomers of econazole, miconazole, and sulconazole on chiral phases were ranged from 1.07 to 2.5 while the values of resolution factors (Rs) varied from 0.17 to 3.9. The chiral recognition mechanisms between the analytes and the chiral selectors are discussed. 

Thick-layer silica gel chromatography can also be employed [7], although most separations are now accomplished by high-performance liquid chromatography. Resolution of complex mixtures often requires both normal and reverse phase modes [19]. A further dimension is added, when bioactivity is correlated with spectroscopically-monitored chromatographic profiles. 

Identification and quantification of natural dyes need high performance analytical techniques, appropriate for the analysis of materials of complicated matrices containing a small amount of coloured substances. This requirement perfectly fits coupling of modern separation modules (usually high performance liquid chromatography in reversed phase mode, RPLC, but also capillary electrophoresis, CE) with selective detection units (mainly mass spectrometer). 

Nogueira, R., Lubda, D., Leitner, A., Bicker, W, Maier, N.M., Lammerhofer, M., and Lindner, W, Silica-based monohthic columns with mixed-mode reversed-phase/weak anion-exchange selectivity principle for high-performance liquid chromatography, J. Sep. ScL, 29, 966, 2006. 

GC = gas chromatography EC = electrochemical (detector ECD = electron capture (detector HCD = Hall conductivity detector HFBA = heptafluorobutyric anhydride HPLC = high performance liquid chromatography NCI-MS = mass spectrometry in the negative chemical ionization mode NPD = nitrogen-phosphorus detector ppb = parts per billion UV = ultraviolet absorption SPE = solid phase extraction wt wt = weight weight... 

High-performance liquid chromatography (HPLC) techniques are widely used for separation of phenolic compounds. Both reverse- and normal-phase HPLC methods have been used to separate and quantify PAs but have enjoyed only limited success. In reverse-phase HPLC, PAs smaller than trimers are well separated, while higher oligomers and polymers are co-eluted as a broad unresolved peak [8,13,37]. For our reverse-phase analyses, HPLC separation was achieved using a reverse phase. Cl8, 5 (Jtm 4.6 X 250 mm column (J. T. Baker, http //www.mallbaker.com/). Samples were eluted with a water/acetonitrile gradient, 95 5 to 30 70 in 65 min, at a flow rate of 0.8 mL/min. The water was adjusted with acetic acid to a final concentration of 0.1%. All mass spectra were acquired using a Bruker Esquire LC-MS equipped with an electrospray ionization source in the positive mode. 

Normal phase (NP) was the original mode of high-performance liquid chromatography (HPLC) reported. This uses a polar stationary phase (e.g. sihca, alumina) and non-polar mobile phase. It can also be referred to as adsorption... 

High performance liquid chromatography (HPLC) is often used for protein purification. It is used in the initial step of fractionation. In this manner, HPLC is as useful as preparative IEF and presents diversity of separation modes. In this technique, chromatographic separations can be performed using... 

H Hasegawa. Vitamin D determination using high-performance liquid chromatography with internal standard-redox mode electrochemical detection and its application to medical nutritional products. J Chromat 605 215-220, 1992. 

An overview and discussion is given of literature methods published after 1989 devoted to the ion-interaction chromatographic determination of inorganic anions. Seventy references are quoted. Ion-interaction chromatography makes use of commercial reversed-phase stationary phase and conventional high-performance liquid chromatography instrumentation. The basis of the technique, the modification of the stationary phase surface, the choice of the ion-interaction reagent as well as the dependence of retention on the different variables involved are discussed. Examples of application in the fields of environmental, clinical and food chemistry are presented. The experimental conditions of stationary phase, of mobile phase composition as well as detection mode, detection limit and application are also summarized in tables. 1997 Elsevier Science B.V. 

High performance liquid chromatography in reversed phase mode was performed isocratically with 82% acetonitrile in water. Detection wavelengths of 254 and 280nm... 

Alawi [319] has discussed an indirect method for the determination of nitrite and nitrate in surface, ground and rain water by reaction with excess phenol (nitrite ions first being oxidised to nitrate) and extraction of the o-nitrophenol produced, followed by separation on a reversed phase high performance liquid chromatography column with amperometric detection in the reduction mode. Recoveries were 82% for nitrate and 77% for nitrite in the concentration range 10-lOOOpg L 1. The method is claimed to be free of interferences from other ions. 

The sample preparation of endohedral metallofullerenes was done by Shino-hara and details are described in the review article [16]. The soot containing M C2 (M=Sc and La) was produced in direct-current (300-400 A) spark mode under He flow at 50 torr and collected under totally anaerobic conditions. The target fullerenes were separated and isolated from the various hollow fullerenes (C60-C110) and other metallofullerenes by the two-stage high-performance liquid chromatography (HPLC) method by using two complementary types of HPLC columns. The purity of the metallofullerenes used for structure analysis relative to other fullerenes was always more than 99.9%. 

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