DE2047952B2 - PROCESS FOR THE PHOTOMETRIC EVALUATION OF THE ZONES ARISING FROM THE SEPARATION OF SUBSTANCE MIXTURES IN THIN LAYERS OF LIGHT DIFFUSING MATERIAL - Google Patents

Description

3 4

curve to be evaluated, which is reflected in measuring light only in a limited space Makes it difficult or even impossible to capture angles

to decide clearly whether it is one

measuring or a disturbance effect is the fluctuation resulting from the interface

It has already been proposed to increase the baseline by only orders of magnitude

the measurement sensitivity before applying the to one's own electronic instability of the whole

the substance being examined move the baseline of the Absorp system.

recording location-location curve and at the actual The device for carrying out the new Verchen Evaluation of the values determined in this way from the driving is advantageously designed in such a way that the measurement measurement curve deduct. This is possible because the io radiation is perpendicular to the surface of the evaluating structure If the separating layer hits the object with careful work, that is above it remain. area a first and below the object a two-

The implementation of this proposal is, however, arranged around the photoelectric receiver and

of course and requires very precise work. that both receivers with an arrangement for ad-

It is now the task of the present invention to define the signals are connected. This arrangement

dung, a method for photometric evaluation is in turn expedient with a scribe in

tion of the separation of substance mixture compound, which the resulting absorption

is recorded in thin layers from a light-scattering Ma-Ort curve.

To create material resulting zones, the opposite It is advantageous to the photoelectric receiver

the usual method the measurement accuracy and the 20 via independently controllable amplifiers

Detection limit significantly improved and despite this to be combined with the addition arrangement,

which enables a quick evaluation. It is useful for recording the remitted

The method according to the invention is characterized and the transmitted light, photometer spheres

characterized in that at the same point of the optical or fiber optic facilities are to be provided,

to be assessed object simultaneously the diffusely reflected 25 The invention is described below with reference to the

and the transmitted radiation are measured F i g. 1 to 6 of the drawing explained in more detail. In one

and that shows the two items thus obtained for evaluation

gnals are added. The sum signal then becomes F i g. 1 a measurement of the remitted radiation

properly registered by means of a scribe. treatment recorded absorption-location curve of a

As in connection with the invention by thin-layer chromatogram and the associated

guided examinations show exists between baseline,

the transmission and remission baseline on FIG. 2 by measuring the transmitted

Substance-free, light-scattering background a narrow radiation-recorded absorption-location curve

Connection. A change in the same thin-layer chromatogram due to scattering as well as the

the degree of remission has a baseline that is also related to the variance,

conditional change in the transmittance result, F i g. 3 a recorded with the help of the new procedure

and both effects are, to a good approximation, the mirrored absorption-location curve as well as the associated

figuratively to each other. In the case of the vein baseline according to the invention,

dition of the remission and transmission signals F i g. 4 the schematic structure of a device

therefore, the variance-related situation for carrying out the new procedure compensates each other,

gnal components, d. H. the baseline of the measurement curve F i g. 5 an embodiment of a device,

is straightened. in which for the integral detection of the radiation

If an absorber photometer sphere is provided on the light-scattering surface,
applied to the bating substance, it is thus so- F i g. 6 a further exemplary embodiment of the advance of the remission and also of the transmission direction, in which fiber-optic devices are reduced. The substance-specific absorption for the supply of the measuring light as well as for the detection thus influences the reflectance and transmission signals of the reflected and the transmitted radiation in the same sense, so that by adding these Si,
gnale the effect to be measured is amplified. In Fig. 1 is with 1 an absorption-location curve

As can be seen without further ado, the new 50 brings referred to that by registering the remitted Procedure for the evaluation of thin-layer radiation when evaluating a thin-layer chromatogram with the advantage that the chromatogram was obtained. How to see Scatter-related, i.e. substance-unspecific, is a function of the effect to be measured Dependence of light scattering on the location of the separating layer of light that is different from the location on the separating layer automatically eliminated during the measurement 55 superimposed scatter.

is, while the actual substance-specific The baseline belonging to curve 1 is with 2

Measurement signal is amplified at the same time. draws. This baseline is very uneven, and

In order to ensure that the scattering-related remedy makes great difficulties in the evaluation,

Mission and transmission signals are shown in the Ad- the hatched area with sufficient

To compensate for the dition as completely as possible, it is necessary to determine 60 accuracy.

agile, the amplitudes of both signals before the addi-

tion on the same level. This is done in advance of this by measuring the reflectance.

part in that one has the sensitivity of a new absorption-location curve in F i g. 1 shown

The receiver compared to the other. Im exhibits is in transmission, so you get the in in general, the sensitivity of the transmis 65 F i g. 2 absorption-location curve labeled Γ. sion receiver reduced, since this is the ob- The associated baseline is denoted by 2 ',

projected measuring radiation almost completely Like a comparative observation of the FIG. 1 and recorded while the remission receiver shows the diffuse 2, the effects are not related to the substance

receding baselines 2 and 2 'are roughly mirror images of one another. The substance-specific absorption on the other hand, it affects curves 1 and 1 'in the same way.

According to the invention, a device is now used to determine the absorption-location curve, as shown schematically in FIG. 4 is shown. The light emanating from a light source 3 is monochromatized in the monochromator 4 and falls over the deflecting mirror 5 onto the one labeled 6 Thin-layer chromatogram. The measuring light hits at an angle of 0 ° to the surface normal the separating layer of the chromatogram 6. By means of the photoelectric receiver 7, the becomes diffuse remitted radiation measured while the receiver measures the transmitted radiation at the same time. That from the recipient? The generated signal is amplified in the amplifier 9 and fed to an adder 11. This also becomes the signal of the receiver 8 supplied after amplification in amplifier 10. The two amplifiers 9 and 10 are preferably independent controllable from one another, so that the amplitudes of the substance-unspecific signals are at the same level can be brought. The addition signal generated in the arrangement 11 reaches the writer 12.

The absorption location curve 13 registered by the recorder 12 is shown in FIG. The to this The baseline belonging to the curve is also shown in FIG. 3 and is denoted by 14 there. How one recognizes, the baseline is now leveled so far that that of irregularities in the separating layer resulting fluctuations only in the order of magnitude of one's own electronic instability of the entire system. The evaluation of curve 13 is now relatively simple and can above all, be made with great accuracy.

As can be seen without further ado, the riäCuVtcisgreiizc vci-

better, since the deflections of the measurement curve, as far as they come into consideration for an evaluation, only can be attributed to substance-specific effects. In the case of the FIG. 5 illustrated embodiment a photometer sphere 15 is arranged above the chromatogram plate 6 and has an opening 16 for the passage of the measuring radiation 17 contains. The diffusely reflected from the separating layer of the plate 6 If necessary, after multiple reflections at the photometer sphere 15, radiation arrives at the photoelectric Receiver 18. Below the plate 6, another photometer sphere 19 is arranged, which contains the photoelectric receiver 20. The through the separating layer of the chromatogram plate 6 penetrating radiation may get there

ίο after multiple reflections on the photometer sphere 19 to recipient 20.

In the case of the FIG. The embodiment shown in FIG. 5 succeeds in both the remitted and the transmitted To capture radiation largely integrally.

This increases the accuracy of measurement compared to a simple device.

In Fig. 6, 6 is again a chromatogram plate designated. The measuring radiation 17 is to be evaluated via a glass fiber bundle 21 Place of the plate 6 passed. The bundle 21 is divided at this point, and the partial bundle 21 'conducts this diffusely remitted light to the photoelectric cell labeled 22. Below the point of impact of the Measuring light 17, another glass fiber bundle 23 is arranged anas, which detects the transmitted radiation and to the photoelectric receiver 24. It is also possible to use the device shown here to modify that only on the measuring side glass fiber bundles are provided for light guidance.

In the embodiment shown in Figure 4 it is also possible to do without the two amplifiers 9 and 10. In this case, the sensitivity of the transmission receiver 8 reduced so far that the two receivers 7 and 8 non-substance-specific signals supplied have the same amplitudes. The reinforcement of the In this case, signals can be made after addition.

With dciVi new procedures, calibration curves result, which are almost linear, at least in the range of small amounts of substance. The new process takes place therefore particularly useful for evaluating thin-layer chromatograms to which only very small amounts of substance are available.

1 sheet of drawings

Claims (7)

What is drawn is that which is to be separated and in solution 1. Process for photometric evaluation applied. After that, the plate is placed in a chamber which arises from the separation of substance mixtures that contain a suitable flow agent The flow material migrates in thin layers of light-scattering development that is now beginning resulting zones, by means of capillary forces across the separating layer, indicates that the substance mixture is separated at the same point. To of the object to be evaluated simultaneously the diffusely ended development are the differently reflected ones and the radiation transmitted through the mixture of different substances measure and the two signals thus obtained ad sites of the separating layer, d. H. there have been subdued will. punching zones formed 2. The method of claim I, characterized overall The actual object is featuring in that the amplitudes advertising brought both / "signals developed thin-layer chromatogram high prior to the addition to the same height i ₅ and quantitatively evaluate now. For evaluation of It is known from thin-layer chromatograms that 3. The method according to claim 2, characterized by first detecting substance stains, then the indicates that the sensitivity of a Si separating layer in the area of the individual substance patch receptors to scrape off the substances from the sorbent compared to that of the other will. ao means to elute and then qualitatively or quantitatively 4. Apparatus for carrying out the ve- hicle to be determined. This evaluation method is quite rens according to claim 1, characterized in that it is cumbersome and not always to be used, since the measurement radiation perpendicular to the upper recovery loss cannot be avoided.
surface of the object to be evaluated (6) hits, it is also known to evaluate thin-layer chromatodass directly above this surface a first (7) and 25 grams. To do this, one measures the under the object a second photoelectri- scanning of the chromatogram with a light shear receiver (8) and that bundles of constant intensity occurring different two receivers with an arrangement (11) for the absorption of the light or fluorescent addition of the signals are connected. the substances the emission of the substance zone. 5. The device as claimed in claim 4, characterized in that the absorption measurement occurs when the object that the photoelectric receivers produce little or no light scattering ger (7, 8) via independently controllable cause by measuring the transmission. at Amplifier (9, 10) with the addition arrangement of light-scattering objects, e.g. B. with thin-film (11) are connected. Chromatograms, is it before a transmission 6. Apparatus according to claim 4, characterized in ₃₅ measurement required, the object with the help of a characterizes that both surfaces of the object (6) to be evaluated from liquid with a suitable refractive index must be made parent with photometer spheres. Such a method for evaluating tric receivers (18, 20) is included because EIu (15, 19) are in contact with them, which cause photoelection efiects. hardly to be received by thin-layer chromatograms 7. The device according to claim 4, characterized in that it is absent. indicates that fiber optic facilities in recent years have gone over to (21, 21 ', 23) for supplying the measuring light (17) and / the evaluation of thin-layer chromatogram or to record the transmitted and / or men in remission. This will be the the remitted radiation are provided. Chromatogram of a monochromatic 45 light bundles are scanned in the separating direction, and the intensity of the diffusely reflected measuring radiation is measured with a photoelectric receiver and recorded with a scribe, for example, depending on the location. Located on the The present invention relates to a method ₅₀ separating layer of light-absorbing substance spots, se for the photometric evaluation of the reflected radiation in the wavelength separation of substance mixtures is weakened in thin areas, where also with transmission layers of light-scattering material resulting measurements of corresponding solutions absorption Zones. This task arises, for example, in the case of bands. The intensity of the diffuse evaluation of pherograms or chromato- ₅₅ reflected measurement radiation is therefore a measure for grams. the absorption caused by the substance. The absorption-location curve obtained during the scanning is evaluated in the following using the example of the quantitative evaluation of thin-layer chromatograms with the aid of the Kubelka-Munk function. written without thereby affecting the application rich of this procedure should be restricted. the diffusely reflected measuring radiation is to be measured Thin-layer chromatography is a modern effect that always depends on the location nes analytical separation process for organic and the separation layer different light scattering inorganic substance mixtures. superimposed, which is particularly evident in the case of low sub- On a mostly made of glass support plate 65 makes punching quantities very disadvantageous and noticeable is a thin, made of fine-grained light-scattering the limit of detection worsened. This substance Material existing layer of the sorbent, unspecific dependence of the light scattering on z. B. silica gel, which acts as a separating layer, can have a very uneven baseline