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Fourier liquid chromatography

Table 5.7 Theoretically predicted polypeptides from the trypsin digestion of S-lacto-globulin (/3LG) . Reprinted from J. Chromatogr., A, 763, Turula, V. E., Bishop, R. T., Ricker, R. D. and de Haseth, J. A., Complete structure elucidation of a globular protein by particle beam liquid chromatography-Fourier transform infrared spectrometry and electrospray liquid chromatography-mass spectrometry - Sequence and conformation of /3-lactoglobulin , 91-103, Copyright (1997), with permission from Elsevier Science... Table 5.7 Theoretically predicted polypeptides from the trypsin digestion of S-lacto-globulin (/3LG) . Reprinted from J. Chromatogr., A, 763, Turula, V. E., Bishop, R. T., Ricker, R. D. and de Haseth, J. A., Complete structure elucidation of a globular protein by particle beam liquid chromatography-Fourier transform infrared spectrometry and electrospray liquid chromatography-mass spectrometry - Sequence and conformation of /3-lactoglobulin , 91-103, Copyright (1997), with permission from Elsevier Science...
F. C. Sanchez, T. Hancewicz, B.G.M. Vandeginste and D.L. Massart, Resolution of complex liquid chromatography Fourier transform infrared spectroscopy data. Anal. Chem., 69 (1997) 1477-1484. [Pg.305]

See footnote cto Table3 LC/PB/MS = hquid chromatography/particle beam mass spectrometry LC/APcl/ESl-MS/MS = liquid chromtography/atmospheric pressure chemical ionization/electrospray ionization tandem mass spectrometry LC/FTIR = Fourier transform infrared LC/TSP-MS/MS = liquid chromatography/thermospray tandem mass spectrometry LC/TSP-MS = liquid chromatography/thermospray mass spectrometry. [Pg.423]

Detection in SFC can be achieved in the condensed phase using optical detectors similar to those used in liquid chromatography or in the gas phase using detectors similar to those used in gas chromatography. Spectroscopic detectors, such as mass spectrometry and Fourier transform infrared spectroscopy, are relatively easily interfaced to SFC compared to the problems observed with liquid mobile phases (see Chapter 9). The range of available detectors for SFC is considered one of its strengths. [Pg.837]

Liquid Chromatography-Fourier-transform Infrared Couplings... [Pg.490]

M. Ramstrom, I. Ivonin, A. Johansson, H. Askmark, K. E. Markides, R. Zubarev, P. Hakansson, S.-M. Aquilonius, and J. Bergquist. Cerebrospinal Fluid Protein Patterns in Neurodegenerative Disease Revealed by Liquid Chromatography Fourier Transform Ion Cyclotron Resonance Mass Spectrometry. Proteomics, 4(2004) 4010-4018. [Pg.334]

In Chapter 12, the use of mass spectrometry and Fourier transform infrared spectrometry (FTIR) for GC detection was discussed. Details of these techniques were individually given in Chapters 10 and 12. Much of the discussion presented in Chapter 16 is applicable here. Both liquid chromatography-mass spectrometry (LC-MS) and liquid chromatography-infrared spectrometry (LC-IR) have been adapted to HPLC detection in recent years. [Pg.383]

Other combinations of chromatography techniques with MS which may be useful in environmental studies are the coupling of high performance liquid chromatography (LC) with MS [84,384,504,506,530,585-593],LC with MS-MS [181, 594 - 599], LC with atmospheric pressure chemical ionization MS (LC-APCI-MS) [600], and Fourier transform infrared spectroscopy-fast atom bombardment coupled to LC-MS (FTIR-FAB-LC-MS) [514]. [Pg.79]

Sander, L.C., Callis, J.B., and Field, L.R., Fourier transform infrared spectrometric determination of aUcyl chain conformation on chemically bonded reversed phase liquid chromatography packings, AnaZ. Chem.,55, 1068, 1983. [Pg.296]

Analysts. It has been our objective to determine criteria for resin, curative or formulation which would permit prediction of sucess prior to potting tests. Many tests, both chemical and physical in nature, have been executed on commercial resin systems. These have included high pressure liquid chromatography (HPLC), Fourier Transform infrared spectrometry (FTIR), gel permeation chromatography, compressive tensile tests by Instron on resin plaques in air and under various aqueous solutions and heat distortion temperature. [Pg.379]

Shen, Y. R, Zhao, R., Belov, M. E., Conrads, T. R, Anderson, G. A., Tang, K. Q., Pasa-Tolic, L., Veenstra, T. D., Lipton, M. S., Udseth, H. R., and Smith, R. D., Packed capillary reversed-phase liquid chromatography with high-performance electrospray ionization Fourier transform ion cyclotron resonance mass spectrometry for proteomics. Analytical Chemistry 73(8), 1766-1775, 2001. [Pg.99]

A few gas chromatography (GC) and liquid chromatography (LC) studies have been reported. Eor example, PCDDs have been separated on a 50m x 0.25 mm polar fused silica capillary GC column (CP Sil-88, Chrompack) with helium as carrier gas and Fourier transform infrared (FTIR)/MS detectors <1997ANC1113>. Furthermore, a highly sensitive and accurate GC-MS method for rapid quantitative analysis of 1,4-dioxane in water has been described <1997JCH(787)283>. [Pg.863]

Huck, C. et al., Quantitative Fourier transform near infrared reflectance spectroscopy (NIRS) compared to high performance liquid chromatography (HPLC) of a flavone in Primulae veris Flos extracts, Pharm. Pharmacol Lett., 9, 26, 1999. [Pg.137]

Grosjean, D E. C. Tuazon, and E. Fujita, Ambient Formic Acid in Southern California Air A Comparison of Two Methods, Fourier Transform Infrared Spectroscopy and Alkaline Trap-Liquid Chromatography with UV Detection, Environ. Sci. Technol., 24, 144-146 (1990). [Pg.643]

Vidrine, D. W. Liquid Chromatography detection using FT-IR in Fourier Transform Infrared Spectroscopy (ed.) Ferraro, J. R., Basile, L. J., Vol. 2, p. 129, New York— San Francisco—London, Academic Press 1979... [Pg.174]

Numerous analyses in the quality control of most kinds of samples occurring in the flavour industry are done by different chromatographic procedures, for example gas chromatography (GC), high-pressure liquid chromatography (fiPLC) and capillary electrophoresis (CE). Besides the different IR methods mentioned already, further spectroscopic techniques are used, for example nuclear magnetic resonance, ultraviolet spectroscopy, mass spectroscopy (MS) and atomic absorption spectroscopy. In addition, also in quality control modern coupled techniques like GC-MS, GC-Fourier transform IR spectroscopy, HPLC-MS and CE-MS are gaining more and more importance. [Pg.306]

D Commercial COTS controlled by external computer Hybrid systems such as automated dissolution workstation with high-performance liquid chromatography (HPLC) or ultraviolet-visible (UV-Vis) interface Liquid chromatographs, gas chromatographs, UV/Vis spectrophotometers, Fourier transform infrared (FTIR) spectrophotometers, near-infrared (NIR) spectrophotometers, mass spectrometers, atomic absorption spectrometers, thermal gravimetric analyzers, COTS automation workstations... [Pg.793]

Table 24.1 Attributes of Reversed-Phase Liquid Chromatography-Fourier Transform Infrared Systems Using Direct... [Pg.741]

See other pages where Fourier liquid chromatography is mentioned: [Pg.15]    [Pg.480]    [Pg.15]    [Pg.123]    [Pg.340]    [Pg.13]    [Pg.149]    [Pg.212]    [Pg.294]    [Pg.365]    [Pg.365]    [Pg.55]    [Pg.107]    [Pg.110]    [Pg.337]    [Pg.155]    [Pg.8]    [Pg.699]    [Pg.1]    [Pg.767]    [Pg.65]    [Pg.39]    [Pg.5]    [Pg.830]    [Pg.227]    [Pg.1153]    [Pg.239]    [Pg.188]    [Pg.148]    [Pg.447]   
See also in sourсe #XX -- [ Pg.270 , Pg.274 ]



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Fourier chromatography

Liquid chromatography/Fourier transform

Liquid chromatography/Fourier transform infrared

Liquid chromatography/Fourier transform infrared spectrometry

Liquid chromatography/Fourier transform infrared spectroscopy

Liquid chromatography/Fourier transform structure elucidation

Liquid chromatography—Fourier-transform polymers

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