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Chromatography, array spectrometer

Sullivan, J.J. and Quimby, B.D. (1990) Characterisation of a computerised photodiode array spectrometer for gas chromatography. Anal. Chem., 62, 1034-1043. [Pg.87]

As described in previous LACTOZ reports the experiments were carried out in glass reaction chambers with volumes ranging from 37 to 1080 L at a total pressure of 1000 mbar synthetic air and at temperatures between 243 and 323 K. Most of the analyses of reactants and products for the different types of experiments were performed using long-path in situ Fourier transform IR spectroscopy (FTIR), however, other techniques such as gas chromatography, HPLC and TDL spectroscopy were also applied. UV absorption spectra were measured using a diode array spectrometer. [Pg.79]

Fig. 4.19. Simultaneous atomic emission detection using the CID array spectrometer of the complexes of Ca, Cu, and Mg following anion exchange chromatography. Fig. 4.19. Simultaneous atomic emission detection using the CID array spectrometer of the complexes of Ca, Cu, and Mg following anion exchange chromatography.
The most commonly used method for the identification of carotenoids is high-pressure liquid chromatography (HPFC) combined with the UV-Vis absorption detection. The introduction of diode array detection enabled parallel collection of pigment spectra, which greatly aids the quantification and localization of unknown compounds. Coupling HPFC with the mass-spectrometer significantly... [Pg.114]

The basic components of an LC-NMR system are some form of chromatographic instrument and an NMR spectrometer equipped with a flow-probe, as shown in Fig. 19.17. In terms of the chromatography of choice, there are many examples in the literature of a wide array of separation instruments employed, from SFC to capillary electrophoresis (CE) [87,88]. By far the most common method (not necessarily the best choice from a separation point of view) of achieving the desired separation is through HPLC. There are many commercial... [Pg.734]

Liquid chromatography/mass spectrometry analyses were performed with an ion trap mass spectrometer (LCQ, Thermo Fisher Scientific Inc., MA) equipped with an HPLC system (Agilent, CA Model 1100) connected with a diode-array detector (DAD, G1315A). The sample solution (1-5 p,L) was applied on an Inertsil ODS-3 column (2.1 x 150 mm, 3 p,m, GL... [Pg.142]

Frassanito, R., Cantonati, M., Tardio, M., Mancini, I., and Guella, G. 2005. On-line identification of secondary metabolites in fresh water microalgae and cyanobacteria by combined liquid chromatography-photodiode array detection-mass spectromet-ric techniques. J. Chromatogr. A, 1082,33-42. [Pg.486]

Spectroscopic detectors measure partial or complete energy absorption, energy emission, or mass spectra in real-time as analytes are separated on a chromatography column. Spectroscopic data provide the strongest evidence to support the identifications of analytes. However, depending on the spectroscopic technique, other method attributes such as sensitivity and peak area measurement accuracy may be reduced compared to some nonselective and selective detectors. The mass spectrometer and Fourier transform infrared spectrometer are examples of spectroscopic detectors used online with GC and HPLC. The diode array detector, which can measure the UV-VIS spectra of eluting analytes is a... [Pg.324]

Reversed-phase high-performance liquid chromatography (RP-HPLC) is the usual method of choice for the separation of anthocyanins combined with an ultraviolet-visible (UV-Vis) or diode-array detector (DAD)(Hebrero et al., 1988 Hong et ah, 1990). With reversed-phase columns the elution pattern of anthocyanins is mainly dependent on the partition coefficients between the mobile phase and the Cjg stationary phase, and on the polarity of the analytes. The mobile phase consists normally of an aqueous solvent (water/carboxylic acid) and an organic solvent (methanol or acetonitrile/carboxylic acid). Typically the amount of carboxylic acid has been up to 10%, but with the addition of a mass spectrometer as a detector, the amount of acid has been decreased to as low as 1 % with a shift from trifluoroacetic acid to formic acid to prevent quenching of the ionization process that may occur with trifluoroacetic acid. The acidic media allows for the complete displacement of the equilibrium to the fiavylium cation, resulting in better resolution and a characteristic absorbance between 515 and 540 nm. HPLC separation methods, combined with electrochemical or DAD, are effective tools for anthocyanin analysis. The weakness of these detection methods is a lack of structural information and some nonspecificity leading to misattribution of peaks, particularly with electrochemical... [Pg.165]

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Array Spectrometers

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