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Automatic chromatogram development

Automated multiple development (AMD), providing automatic chromatogram development and drying, is a novel form of the PMD technique. Automated multiple development as an instrumental technique can be used to perform normal-phase chromatography with solvent gradients on HPTLC plates. Most of the AMD applications use typical gradients Starting with a very polar solvent, the polarity is varied by means of base solvent of medium polarity to a... [Pg.513]

Chloitetracycline, 468-472 Cholecalciferol (vitamin Da), 1061 Chromatogram development, 135-140 automated multiple development, 138-140 automatic chromatogram development, 138 general aspects of development, 135-137 horizontal developing chamber, 138 in a tank, 137-138 Chromatorods, 362 Chromatostrips, 362... [Pg.1093]

At the same time, with diversification of the stationary phases, various new apparatuses, like the apparatus for automatic application of spots, the chromatographic chambers for circular and anti-circular development, automatic multiple development, or development at high pressure, chambers with gradients, equipment for registering in situ chromatograms have appeared. [Pg.445]

The next important stage is chromatogram development. Automatic developing chambers (Automatic Developing... [Pg.1816]

More recent chromatogram chambers - e.g. the AMD system (Fig. 11) - only possess a small observation window and this can, if necessary, be covered with a black cloth. Development in the DC-Mat (Fig. 12) or the ADC (Fig. 13) automatic development chambers is carried out entirely in the dark. [Pg.15]

Additionally, with the inclusion of computers as part of an instrument, mathematical manipulation of data was possible. Not only could retention times be recorded automatically in chromatograms but areas under curves could also be calculated and data deconvoluted. In addition, computers made the development of Fourier transform instrumentation, of all kinds, practical. This type of instrument acquires data in one pass of the sample beam. The data are in what is termed the time domain, and application of the Fourier transform mathematical operation converts this data into the frequency domain, producing a frequency spectrum. The value of this methodology is that because it is rapid, multiple scans can be added together to reduce noise and interference, and the data are in a form that can easily be added to reports. [Pg.31]

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See also in sourсe #XX -- [ Pg.125 ]



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