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The use of a TLC scanner can be regarded as a key step in high performance thin layer chromatography (HPTLC). Densitometric measurements transform the substance distribution on a TLC plate into digital computer data. Systems that allow quantitative measurements have been available for many years for either fluorescence or ultraviolet absorption measurements, while lately the reflection analysis mode for both types is the most common application. New scanning approaches are designed to aid the analyst who has common demands for TLC-densitometry without using special data, such as scanned images. Two examples that have been developed lately in the laboratories of the authors are described in this paper. These approaches were developed on the basis of current needs for analysts who employ TLC as a tool in research, as well as in routine analysis. One approach is aimed to support analysts in economically disadvantaged areas, where cost intensive apparatus is unsuitable but trace analysis by simple means is required. The other system, allows the spectral determination of chromatographic spots on TLC plates covering the ultraviolet and visible range, thus, revealing highly desired information for the analyst.
In-situ densitometry for qualitative or quantitative purposes is a key step in thin-layer chromatography (TLC). It is a simple means of quantification by measurement of the optical density of the separated spots directly on the plate. A new scanner has been developed which is capable of measuring TLC or HPTLC (high-performance thin-layer chromatography) plates simultaneously at different wavelengths without damaging the plate surface. Fiber optics and special fiber interfaces are used in combination with a diode-array detector. With this new scanner sophisticated plate evaluation is now possible, which enables use of chemometric methods in HPTLC. Different regression models have been introduced which enable appropriate evaluation of all analytical questions. Fluorescent measurements are possible without filters or special lamps and signal-to-noise ratios can be improved by wavelength bundling. Because of the richly structured spectra obtained from PAH, diode-array HPTLC enables quantification of all 16 EPA PAH on one track. Although the separation is incomplete all 16 compounds can be quantified by use of suitable wavelengths. All these aspects are enable substantial improvement of in-situ quantitative densitometric analysis.
Vorgestellt wird die Dioden-Array-Dünnschichtchromatographie als eine moderne und preiswerte Messmethode zur densitometrischen Erfassung von Substanzen auf einer DC- oder einer HPTLC-Platte. Sicher identifizierbar sind auch Substanzen mit schwachem Chromophor. Die Kubelka-Munk-Gleichung beschreibt einen linearen Zusammenhang zwischen Remissionslicht und lichtabsorbierender Stoffmenge auf der Platte. Die Auswertung im Spektralbereich von 316 bis 334 nm zeigt den Zusammenhang zwischen transformiertem Messsignal und aufgetragener Substanzmasse. Die schnelle Aufnahme von UV/vis-Spektren eröffnet der HPTLC den gesamten Bereich der Methodenvalidierung auf dem Niveau, auf welchem heute die HPLC-Analytik durchgeführt wird.