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Liquid chromatography analytical

Tanaka N. Kobayashi H. Nakanishi K. Minakuchi H. Ishizuka N. Monolithic columns - a new type of chromatographic support for liquid chromatography. Analytical Chemistry, 2001, 73, 420A-429A. [Pg.68]

Tsuda, T. and Novotny, M., Racked microcapillary columns in high-performance liquid-chromatography. Analytical Chemistry 50(2), 271-275, 1978. [Pg.93]

Minakuchi, H., Nakanishi, K., Soga, N., Ishizuka, N., and Tanaka, N., OctadecylsUylated porous sihca rods as separation media for reversed-phase liquid chromatography, Analytical Chemistry 68(19), 3498-3501,1996. [Pg.94]

Dunlap KL, Sandridge RL, Keller J. 1976. Determination of isocyanates in working atmospheres by high speed liquid chromatography. Analytical Chemistry 48(3) 497-499. [Pg.169]

Kimura, K., Nakajima, M., and Shono, T. (1980) Poly(crown ether)-Modified Silica for Stationary Phase of Liquid Chromatography, Analyt. Lett. 13, 741-750. [Pg.360]

Li, L., Da, S., Feng, Y., and Liu, M. (2004) Preparation and Characterization of a New P-tert-butyl-calix[8]arene-bonded Stationary Phase for High-performance Liquid Chromatography, Analyt. Sci. 20, 561-564. [Pg.361]

Pascoe R, Foley JP, Gusev Al (2001) Reduction in Matrix-Related Signal Suppression Effects in Electrospray Ionization Mass Spectrometry Using On-Line Two-Dimensional Liquid Chromatography. Analytical Chemistry 73 6014-6023... [Pg.613]

Cho, Y. D., Martin, R. O. Resolution of unambiguous identification of microgram amounts of 22 lupine alkaloids by sequential use of thin-layer and gas-liquid chromatography. Analytical Biochemistry, 44, (1971) 19-57. [Pg.480]

Zhang, W.Z., He, L.J., Gu, Y.L., Liu, X., and Jiang, S.X. 2003. Liquids as mobile phase additives on retention of catecholamines in reversed-phase high-performance liquid chromatography. Analytical Letters, 36 827-38. [Pg.302]

Hughes, Graham J., and Wilson, Kenneth J., High-Performance Liquid Chromatography Analytic and Preparative Applications in Protein... [Pg.240]

During A, Nagao A, Hoshino C, and Terao J (1996) Assay of beta-carotene 15,15 -dioxygenase activity by reverse-phase high-pressure liquid chromatography. Analytical Biochemistry 2i, 199-205. [Pg.423]

The ultraviolet and infra-red data have been completely revised, as have the chromatographic data which now include high pressure liquid chromatography. Analytical information on many major metabolites is presented for the first time, and many monographs include the eight major mass spectral peaks for the substance and its major metabolites. [Pg.1676]

The copolymer composition can be estimated usefully in many cases from the composition of unreacted monomers, as measured by gas-liquid chromatography. Analytical errors are reduced if the reaction is carried to as high a conversion as possible, since the content of a given monomer in the copolymer equals the difference between its initial and final measured contents in the feed mixture. The uncertainty in the copolymer analysis is thus a smaller proportion of the estimated quantity, the greater the magnitude of the decrease in the monomer concentration in the feed. It may seem appropriate under these circumstances to estimate reactivity ratios by fitting the data to an integrated form of the copolymer equation. [Pg.256]

Lindsay, S. (1990) High performance liquid chromatography. Analytical Chemistry by Open Learning, Wiley, Chichester, 244 pp. [Pg.247]

Wen, Y., Wang, Y., and Feng, Y.Q. 2007. A simple and rapid method for simultaneous determination of benzoic and sorbic acids in food using in-tube solid-phase microextraction coupled with high-performance liquid chromatography. Analytical and Bioanalytical Chemistry 388 1779-1787. [Pg.50]

MARCOMENI, A and GIGER, W. (1987) Simultaneous determination of linear alkylbenzenesuphonates, alkylphenol olyethexylates and nanylphenol by high performance liquid chromatography. Analyt. Chem., 59, 1709-1715. [Pg.51]

Liebes L, Mazur Y, Freeman D, Lavie D, Lavie G, Kudler N, Mendoza S, Levin B, Hochster H, Meruelo D. A method for the quantification of hypericin, an antiviral agent, in biological fluids by high-performance liquid chromatography. Analyt Biochem 1991 195 77-85. [Pg.132]

Meyer, M. H., R. A. Meyer, R. W. Gray, and R. L. Irwin. 1985. Picric acid methods greatly overestimate serum creatinine in mice More accurate results with high performance liquid chromatography. Analytical Biochemistry 144 285-290. [Pg.288]

Guan, Z., Grunler, J., Piao, S. and Sindelar, P.J. (2001) Separation and quantitation of phospholipids and their ether analogues by high-performance liquid chromatography. Analytical Biochemistry 297, 137-143. [Pg.17]

He, B., Tail, N., and Regnier, F., Fabrication of nanocolumns for liquid chromatography. Analytical... [Pg.1370]

Barber, E. D., Sawicki, E., and McPherson, S. P., "Separation and Identification of Phenols in Automobile Exhaust by Paper and Gas Liquid Chromatography," Analytical Chemistry, 36, 2442, 1964. [Pg.75]

Kwon H and Kim J (1993) Determination of monosaccharides in glycoproteins by reverse-phase high-performance liquid chromatography. Analytical Biochemistry 215 243-252. [Pg.432]

Takemoto H, Hase S, and Ikenaka T (1985) Microquanti-tative analysis of neutral and amino sugars as fluorescent pyridylamino derivatives by high-performance liquid chromatography. Analytical Biochemistry 145 245-250. [Pg.432]

Figure 10 Enrichment and separation setup for SLM extraction. A - peristaitic pump, B - membrane device with hoiiow fiber instaiied into fused siiica capiiiary, C - iniet on the donor side, D - washing iine used after enrichment, E - microinjection pump to transport the acceptor into ioop F, G - Cis packed capillary column, H - detector window, I - splitter unit, J - high pressure pump. (Adapted from Thordarson E, Palmarsdottir S, Mathiasson L, and Jonsson JA (1996) Sample preparation using a miniaturized supported liquid membrane device connected on-line to packed capillary liquid chromatography. Analytical Chemistry 68 2559-2563.)... Figure 10 Enrichment and separation setup for SLM extraction. A - peristaitic pump, B - membrane device with hoiiow fiber instaiied into fused siiica capiiiary, C - iniet on the donor side, D - washing iine used after enrichment, E - microinjection pump to transport the acceptor into ioop F, G - Cis packed capillary column, H - detector window, I - splitter unit, J - high pressure pump. (Adapted from Thordarson E, Palmarsdottir S, Mathiasson L, and Jonsson JA (1996) Sample preparation using a miniaturized supported liquid membrane device connected on-line to packed capillary liquid chromatography. Analytical Chemistry 68 2559-2563.)...
Novomy M (1981) Microcolumns in liquid chromatography. Analytical Chemistry 53 1294A. [Pg.2552]

Armstrong DW and Nome F (1981) Partitioning behavior of solutes eluted with micellar mobile phases in liquid chromatography. Analytical Chemistry 53 1662-1666. [Pg.2594]

Borgerding MF, Hinze WL, Stafford LD, Fulp GW Jr, and Hamlin WC Jr (1989) Investigation of stationary phase modification by the mobile phase surfactant in micellar liquid chromatography. Analytical Chemistry 61 1353-1358. [Pg.2594]

Lopez-Grio S, Garcia-Alvarez-Coque MC, Hinze WL, Quina EH, and Berthod A (2000) Effect of a variety of organic additives on retention and efficiency in micellar liquid chromatography. Analytical Chemistry 72 4826-4835. [Pg.2594]

See other pages where Liquid chromatography analytical is mentioned: [Pg.274]    [Pg.967]    [Pg.84]    [Pg.26]    [Pg.543]    [Pg.1275]    [Pg.2721]   
See also in sourсe #XX -- [ Pg.37 ]



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