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Reversed-phase ion-pair liquid

Felice, L. Felice, J. and Kissinger, P. Determination of catecholamines in rat brain parts by reverse-phase ion-pair liquid chromatography. [Pg.121]

Two types of system are used for ion-pair liquid chromatography. When polar stationary phase materials, such as silica gel, are used an ion-pair partition mechanism is applied. When non-polar stationary phase materials, such as octadecyl-bonded silica gel and polystyrene gel, are employed a paired-ion adsorption mechanism is involved. The former is called normal-phase ion-pair partition liquid chromatography, and the latter is called reversed-phase ion-pair liquid chromatography. [Pg.71]

Increasing the concentration of the counter-ion further increased the retention, but the retention reached a plateau, as seen in Figure 4.14. A total separation of the amino acids by reversed-phase ion-pair liquid chromatography could be performed.11 A column switching technique reduced the total analysis time (Figure 4.15). [Pg.73]

Two mechanisms for retention in reversed-phase ion-pair liquid chromatography have been considered. One is the adsorption of the hydrophobic paired ion on the hydrophobic surface of stationary phase material. In the second mechanism, the hydrophobic counter-ion is held on the surface of the hydro-phobic stationary phase, and the analyte ion is retained by ion-ion interactions, as shown in Figure 4.16. In the latter case, of a dynamic ion-exchange... [Pg.74]

Figure 4.16 Model of reversed-phase ion-pair liquid chromatography in which counterions are held on the stationary-phase surface. Figure 4.16 Model of reversed-phase ion-pair liquid chromatography in which counterions are held on the stationary-phase surface.
Ion-pair liquid chromatography can be applied to compounds separated by ion-exchange liquid chromatography, and mixtures of ionic and non-ionic compounds are easily separated. The latter separation is difficult by ion-exchange liquid chromatography. Anions can be separated by reversed-phase ion-pair liquid chromatography (Figure 4.18). [Pg.80]

B. A. Bidlingmeyer, S.N. Deming, W.P. Price, Jr., B. Sachok, and M. Petrusek, Retention mechanism for reversed-phase ion-pair liquid chromatography , J. Chromatogr., 1979,186, 419. [Pg.95]

L. A. Gennaro, D. J. Harvey, and P. Vouros, Reversed-phase ion-pairing liquid chromatog-raphy/ion trap mass spectrometry for the analysis of negatively charged, derivatized glycans, Rapid Common. Mass Spectrom., 17 (2003) 1528-1534. [Pg.131]

Jen and Chen [10] determined metal ions at pg L 1 concentrations in non saline waters using reversed phase ion pair liquid chromatography. [Pg.195]

Varvaresou, A. et al. Development and validation of a reversed-phase ion-pair liquid chromatography method for the determination of magnesium ascorbyl phosphate and melatonin in cosmetic creams. Anal. Chim. Acta 2006, 573-574, 284—290. [Pg.115]

Nakazawa, H. et al. Determination of dithiocarbamate fungicides by reversed-phase ion-pair liquid chromatography with chemiluminescence detection. /. Liq. Chromatogr. Rel. Technol. 2004, 27, 705-713. [Pg.155]

Wolf, R.E., Morrison, J.M., and Goldhaber, M.B. Simultaneous determination of Cr(iii) and Cr(vi) using reversed-phased ion-pairing liquid chromatography with dynamic reaction cell inductively coupled plasma mass spectrometry. J. Anal. Atom. Spectrom. 2007, 22, 1051-1060. [Pg.169]

Primus, T.M., Griffin, D.L., Volz, S.A., Johnson, J.J. (1998). Reversed-phase ion-pair liquid chromatographic determination of chlorophacinone and diphacinone in steam-rolled oat baits and steam-rolled oat/wax baits. JAOAC Int. 82(2) 349-57. [Pg.222]

S.6.4.2 Reversed-phase ion-pair liquid chromatography. Reversed-phase ion-pair chromatography is an alternative approach for controlling the retention of ionic compounds. This approach is particularly useful for the separation of amines on silica-based columns and it has had a profound effect on the analysis of this class of compounds. In particular, the combination of reversed-phase ion-pair liquid chromatography and electrochemical detection revolutionized the analysis of neurotransmitters in the brain (Tomlinson et al., 1978 and refs, therein). [Pg.62]

Christofides, J.A. Fry, D.E. Measurement of anticonvulsants in serum by reversed-phase ion-pair liquid chromatography. Clin.Chem., 1980, 26, 499-501... [Pg.239]

Shaikh, B. Jackson, J. Determination of neomycin in milk by reversed phase ion-pairing liquid chromatography. J.Liq.Chromatogr., 1989, 12, 1497-1515... [Pg.954]

Wong, Y.W. Davis, P.J. Analysis of warfarin and its metabolites by reversed-phase ion-pair liquid chromatography with fluorescence detection. J.Chromatogr., 1989, 469, 281-291... [Pg.1471]

Considerable attention has been focussed on the antidepressant, tianeptine (23), which has included the development of a reverse-phase, ion-pair, liquid chromatographic method for the determination of the drug and its major metabolites in plasma, urine, and tissues <86JC115>. Further metabolic studies in healthy volunteers involving chromatographic and mass spectral analysis have also been reported <90mi 907-01 >. [Pg.186]

See also Liquid Chromatography Overview Principles Reversed Phase Ion Pair Liquid Chromatography-Mass Spectrometry. [Pg.2552]

See other pages where Reversed-phase ion-pair liquid is mentioned: [Pg.72]    [Pg.79]    [Pg.80]    [Pg.417]    [Pg.112]    [Pg.235]    [Pg.185]    [Pg.64]    [Pg.65]    [Pg.68]    [Pg.236]    [Pg.180]    [Pg.24]    [Pg.481]   


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