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Multidimensional high-performance liquid

D. Wu, M. Berua, G. Maier and J. Johnson, An automated multidimensional sa eening approach for rapid method development in high-performance liquid cliromatography , 7. Pharm. Biomed. Anal. 16 57-68 (1997). [Pg.291]

A. J. Szuna, T. E. Mulligan, B. A. Mico and R. W. Blain, Determination of Ro 23-7637 in dog plasma by multidimensional ion-exchange-reversed-phase high-performance liquid cliromatography with ulti aviolet detection , 7. Chromatogr. 616 297-303 (1993). [Pg.292]

Figure 15.3 Separation of tricyclic antidepressants by using multidimensional LC-LC. Peak identification is as follows DOX, doxepin DES, desipramine NOR, noitryptylene IMI, imipramine AMI, amiti yptyline. Adapted from Journal of Chromatography, 507, J. V. Posluszny et al., Optimization of multidimensional high-performance liquid cliromatography for the deterTnination of drugs in plasma by direct injection, micellar cleanup and photodiode array detection , pp. 267 - 276, copyright 1990, with permission from Elsevier Science. Figure 15.3 Separation of tricyclic antidepressants by using multidimensional LC-LC. Peak identification is as follows DOX, doxepin DES, desipramine NOR, noitryptylene IMI, imipramine AMI, amiti yptyline. Adapted from Journal of Chromatography, 507, J. V. Posluszny et al., Optimization of multidimensional high-performance liquid cliromatography for the deterTnination of drugs in plasma by direct injection, micellar cleanup and photodiode array detection , pp. 267 - 276, copyright 1990, with permission from Elsevier Science.
MDHPLC Multidimensional high-performance liquid chromatography... [Pg.757]

Shalliker, R. A., Gray, M.J. (2006). In Grushka, E., Grinberg, N., editors. Concepts and Practice of Multidimensional High-Performance Liquid Chromatography Advances in Chromatography, Vol. 44. Taylor and Francis Group, New York. [Pg.7]

Valentine, S.J., Kulchania, M., Srebalus Barnes, C.A., Clemmer, D.E. (2001). Multidimensional separations of complex peptide mixtures a combined high-performance liquid chromatography/ion mobility/time-of-flight mass spectrometry approach. Int. J. Mass. Spectrom. 212, 97. [Pg.58]

Majors, R.E. (1980). Multidimensional high performance liquid chromatography. J. Chromatogr. Sci. 18(10), 571-579. [Pg.123]

Issaq, H.J., Chan, K.C., Cheng, S.L., Qingho, L. (2001). Multidimensional high performance liquid chromatography-capillary electrophoresis separation of a protein digest an update. Electrophoresis 22, 1133-1135. [Pg.382]

H. J. Cortes and L. D. Rothman, Multidimensional high-performance liquid chromatography in Multidimensional Chromatography Techniques and Applications, H. J. Cortes (Ed.) Marcel Dekker, New York, Ch. 6, pp. 219-250 (1990). [Pg.132]

Figure 10.9 Chromatograms of fortified coconut oil obtained by using (a) normal-phase HPLC and (b) GPC/normal-phase HPLC. Peak identification is as follows 1 (a,b), DL-a-toco-pheryl acetate, 2 (b), 2,6-di-terf-butyl-4-methylphenol 2 (a) and 3 (b), retinyl acetate 3 (a) and 4 (b), tocol 4 (a) and 5 (b), ergocalciferol. Reprinted from Analytical Chemistry, 60, J. M. Brown-Thomas et al., Determination of fat-soluble vitamins in oil matrices by multidimensional high-performance liquid chromatography , pp. 1929-1933, copyright 1988, with permission from the American Chemical Society. Figure 10.9 Chromatograms of fortified coconut oil obtained by using (a) normal-phase HPLC and (b) GPC/normal-phase HPLC. Peak identification is as follows 1 (a,b), DL-a-toco-pheryl acetate, 2 (b), 2,6-di-terf-butyl-4-methylphenol 2 (a) and 3 (b), retinyl acetate 3 (a) and 4 (b), tocol 4 (a) and 5 (b), ergocalciferol. Reprinted from Analytical Chemistry, 60, J. M. Brown-Thomas et al., Determination of fat-soluble vitamins in oil matrices by multidimensional high-performance liquid chromatography , pp. 1929-1933, copyright 1988, with permission from the American Chemical Society.
J. M. Brown-Thomas, A. A. Moustafa, S. A. Wise and W. E. May, Determination of fat-soluble vitamins in oil matrices by multidimensional high-performance liquid chromatography , Anal. Chem. 60 1929-1933 (1988). [Pg.247]

Figure 15.5 Separation of Voriconazole and an internal standard by using SEC-HPLC. Adapted from Journal of Chromatography, B 691, D.A. Stopher and R. Gage, Determination of a new antifungal agent, voriconazole, by multidimensional high-performance liquid chromatography with direct plasma injection onto a size exclusion column , pp. 441 -448, copyright 1997, with permission from Elsevier Science. Figure 15.5 Separation of Voriconazole and an internal standard by using SEC-HPLC. Adapted from Journal of Chromatography, B 691, D.A. Stopher and R. Gage, Determination of a new antifungal agent, voriconazole, by multidimensional high-performance liquid chromatography with direct plasma injection onto a size exclusion column , pp. 441 -448, copyright 1997, with permission from Elsevier Science.
C. G. Chappell, C. S. Creaser and M. J. Shepherd, On-line high performance liquid chromatography-multidimensional gas chromatography and its application to the determination of stilbene hormones in corned beef , J. High Resolut. Chromatogr. 16 479-482(1993). [Pg.430]

A. J. Szuna and R. W. Blain, Determination of a new antibacterial agent (Ro 23-9424) by multidimensional high-performance liquid chromatography with ultraviolet detection and direct plasma injection , J. Chromatogr. 620 211-216 (1993). [Pg.430]

See other pages where Multidimensional high-performance liquid is mentioned: [Pg.109]    [Pg.231]    [Pg.235]    [Pg.247]    [Pg.410]    [Pg.411]    [Pg.430]    [Pg.5]    [Pg.124]    [Pg.48]    [Pg.38]    [Pg.51]    [Pg.374]    [Pg.109]    [Pg.231]    [Pg.235]    [Pg.410]    [Pg.411]   
See also in sourсe #XX -- [ Pg.879 , Pg.880 , Pg.881 , Pg.882 ]



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