JPH02161351A - Method for measuring infrared spectrum of sample of thin-layer chromatography plate - Google Patents

Abstract

PURPOSE:To decrease measuring stages and to enhance measuring efficiency and sample resolution by migrating the developed sample to a collecting agent and measuring the IR spectra of the sample. CONSTITUTION:A TLC plate 1 is provided with the carrier 3 of the sample on one surface of a base plate 2 and the sample 4 is developed as spots on the carrier 3. The sample collecting agent 5 is sprayed in the form of a thin layer on the surface of this carrier 3 over nearly the entire surface and ethyl acetate is sprayed as a solvent over the entire surface of the collecting agent 5. The sample 4 migrates together with the solvent to the collecting agent 5 when the solvent is evaporated. The surface of the collecting agent 5 is thereafter scanned and the IR spectra of the respective samples 4a are measured.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Application Field) The present invention relates to a method for measuring an infrared spectrum of a sample developed on a thin layer chromatography (hereinafter referred to as 'I'LC) plate.

(Prior art) When measuring the infrared spectrum of a sample developed on a TLC plate, if the infrared spectrum of the sample developed on a TLC grade carrier is measured in its original state, the infrared spectrum of the sample developed on a TLC-grade carrier is measured as it is. Due to the absorption of external light, it is necessary to accurately measure the spectrum of the sample.

Therefore, the sample developed on the 'f'Lc plate is
The influence of the TLC plate carrier is eliminated by transferring to a sample collection agent such as KBr that does not absorb infrared light, forming a measurement sample therefrom, and measuring the infrared spectrum of that sample.

As a conventional method for measuring an infrared spectrum of a sample developed on such a TLC plate, for example, the method shown in FIGS. 8 and 9 is known.

In this measurement method, a sample collection agent 11 formed in a pyramid shape of KBr crystal powder shown in FIG. 8 is used as shown in FIG.
8), insert into the glass cuvette 12. Then, peel off the target sample spot from the TLC plate (not shown) and place it in cuvette 1.
At the same time, a sample extraction solvent such as ethyl acetate is placed in the cuvette 12, and a ring-shaped lid plate 13 is placed at the mouth of the cuvette 12, as shown in FIG. 9(B).
Place.

In this state, by permeating and volatilizing the solvent into the sample collection agent 11, the sample in the spot portion separated from the TLC plate is transferred to the sample collection agent 11, and is deposited on the upper end thereof.

When the transfer of the sample to the sample collection agent 11 is completed, the upper end of the sample collection agent 11 is cut off, and it is ground into powder to form a disk-shaped measurement sample.
The infrared spectrum of the sample is being measured.

(Problems to be Solved by the Invention) The conventional infrared spectrum measurement method of a sample developed on a TLC plate requires time and effort to separate the target spot portion from the TLC plate, and the separated spot portion It is necessary to place the sample into the cuvette 12 and transfer it with a solvent to the sample collection agent 11 formed of KBr crystals, and to form a measurement sample from a part of this sample collection agent 11. , there are problems that require a lot of effort.

In addition, it is necessary to peel off the carrier part of the sample spot for measurement purpose from the TLC plate, so if the sample spot for measurement purpose is unknown, it will be difficult to collect the spot part, and the red color of the sample will be difficult to collect. There is a problem that it becomes impossible to measure the outer spectrum.

The present invention solves the above-mentioned problems,
The purpose of the present invention is to provide a measurement method that can perform infrared spectrum measurement of each sample developed on a TLC plate with fewer steps for infrared spectrum measurement and without interference from the carrier that constitutes the TLC plate. That is.

(Means for Solving the Problems) The first aspect of the method for measuring an infrared spectrum of a sample on a thin layer chromatography plate of the present invention is to form a sample collection agent in a layer on the surface of the thin layer chromatography plate on which the sample has been developed. The method is characterized in that a solvent is added to the sample collection agent, the developed sample is transferred to the sample collection agent, and an infrared spectrum of the sample is measured.

In the second invention, a ring plate is placed over the spot of the sample developed on the thin layer chromatography plate, a sample collection agent is placed on the thin layer chromatography plate inside the ring plate, and a solvent is applied to the sample collection agent. In addition, the method is characterized in that the developed sample is transferred to a sample collection agent and the infrared spectrum of the sample is measured.

As the sample collecting agent, a material that does not absorb infrared light, such as crystals such as KBr or KcJ2, or diamond powder, is used.

The solvent added to the sample collection agent is selected depending on the sample developed on the TLC plate, and examples thereof include ethyl acetate and methanol.

When the sample collection agent is placed on the surface of the TLC plate in the first invention, it may be placed on almost the entire surface of the TLC plate or on a spot of the sample to be measured.

In the first invention, when the addition area of the solvent to the sample collection agent is large, it is suitable to add the solvent, and when the addition area is small as in the second invention, spraying is suitable.
Although dripping is suitable, any other means can be adopted.

The ring plate used in the second invention is made of a material that is not affected by solvents, such as metal, and is provided with holes. The ring plate can have any shape such as a circle, an oval, or a square.

Measurement of the infrared spectrum of the sample transferred to the sample collection agent can be performed with the sample collection agent placed on the TLC plate. It is also possible to remove the sample collection agent from above the TLC plate, form it into a disc or the like, and then measure the infrared spectrum of the sample.

In the second invention, if the inside of the ring plate is lightly packed with sample collection agent, the sample collection agent can be packed together with the ring plate.
It is easy to move from the C plate.

(Function) The method for measuring infrared spectra of a sample on a TLC plate of the present invention involves transferring the sample developed on the TLC plate with a solvent to a sample collecting agent placed in layers on the surface of the TLC plate. It measures the infrared spectrum of

In this way, the carrier is coated with a layer of sample collection agent, which blocks absorption of the infrared spectrum by the carrier, so that even when the sample collection agent is placed on the TLC plate, the carrier remains It is possible to measure the infrared spectrum of a sample transferred to a sample collection agent without being affected by

It is also possible to move the part of the sample collection agent to which the sample has transferred from above the TLC plate and measure the infrared spectrum of the sample.

In the second invention, a sample collection agent is placed in a ring plate overlapping the spot of the sample developed on the TLC plate, and a solvent is added to the sample collection agent. Therefore, compared to the area of the sample collection agent layer, the area of the solvent that permeates into the carrier of the TLC plate is larger, and by volatilization of this solvent, a wide range of the sample is transferred to the sample collection agent. The concentration of the sample with respect to the agent can be increased.

(Example) In the method for measuring an infrared spectrum of a sample of a thin layer chromatography plate of the present invention, an example of the first invention will be described with reference to Figs.

In FIGS. 1 to 4, reference numeral 1 denotes a TLC plate, which is constructed by providing a sample carrier 3 made of silica, cellulose, alumina, etc. on one side of a base plate 2 made of glass or aluminum. 4 is a sample developed as a spot on carrier 2.

In this way, the TLC sample 4 was developed as a spot.
As shown in FIGS. 2 and 3, a sample collection agent 5 made of KBr crystal powder is applied to almost the entire surface of the carrier 3 of the plate 1.
Spread in a thin layer. Then, the entire surface of the sample collection agent 5 is sprayed with #ethyl acid as a solvent. This solvent also permeates the carrier 3.

When the added solvent is dried and volatilized, the sample 4 spread on the carrier 3 transfers to the sample collection agent 5 together with the solvent, as shown in FIG. 4a is a sample transferred to sample collection agent 5.

After the sample 4 on the carrier 3 has been transferred to the sample collection agent 5, the surface of the sample collection agent 5 is scanned using, for example, a diffuse reflection method to measure the infrared spectrum of each sample 4a. .

In the measurement of the infrared spectrum, there is no absorption of the infrared spectrum by the layer of the sample collecting agent 5, and the layer of the sample collecting agent 5 prevents the carrier 3 from absorbing infrared light. However, the infrared spectrum of each sample 4a of the sample collection agent 5 can be accurately measured without being affected by the carrier 3.

It is also possible to measure the infrared spectrum by moving the part of the sample collection agent 5 to which the sample 4a has been transferred from above the TLC plate 1.

In this example, a layer of the sample collection agent 5 is formed on almost the entire surface of the TLC plate 1, but it is also possible to form a layer of the sample collection agent 5 on the portion of the sample 4 to be measured and add a solvent thereto.

5 to 7 show an embodiment of the second invention.

In Figs. 5 to 7, ■ is a TLC plate, and a ring plate 7 is placed on the carrier 3 formed on the surface of the base plate 2, overlapping the part of the sample 4 developed as a spot.
, this ring plate 7 is a metal plate with holes 8 provided therein. (See Figure 5) Then, a sixth hole is inserted into the hole 8 of the ring plate 7.
As shown in the figure, a sample collecting agent 5 made of KBr crystal powder is put therein to cover the sample 4, and ethyl acetate is added dropwise to the sample collecting agent 5 as a solvent. This solvent also permeates the carrier 3, and the permeation area also spreads to the lower surface of the ring plate 7, so that it becomes larger than the area of the hole 8.

When the added solvent is dried and volatilized, the sample 4 spread on the carrier 3 transfers together with the solvent to the sample collection agent 5 placed in the hole 8 of the ring plate 7, as shown in FIG. As described above, the sample spread on the portion of the carrier 3 overlapping the lower surface of the ring plate 7 also transfers to the sample collection agent 5 by volatilization of the solvent that has penetrated therein, and is concentrated on the surface thereof.

That is, since a sample spread over an area larger than the area where the sample collection agent 5 overlaps can also be transferred to the sample collection agent 5, the degree of concentration of the sample collection agent 5 can be made higher.

4a is a sample transferred to sample collection agent 5.

After the transfer of the sample 4 from the carrier 3 to the sample collection agent 5 is completed, the infrared spectrum of the sample 4a of the sample collection agent 5 is measured. Since the sample of the sample collection agent 5 has a high concentration as described above, the measurement sensitivity is improved and the infrared spectrum can be measured more accurately.

This infrared spectrum measurement can be performed on a TLC grade 1. It is also possible to move the sample collection agent 5 together with the ring plate 7 from above the TLC plate 1 and measure the infrared spectrum.

(Effects of the Invention) As described above, the infrared spectrum measurement method for a sample on a thin layer chromatography plate of the present invention involves placing a sample collection agent such as KBr on the surface of a TLC plate on which a sample has been developed, and applying a solvent to it. Since the sample on the 'I' LC plate is transferred to the sample collection agent by adding the sample, there are fewer steps for transferring the sample to the sample collection agent, and the efficiency of infrared spectrum measurement of the sample can be improved.

Since the sample on the TLC plate is transferred directly from the surface to the sample collection agent, it is possible to prevent adjacent samples from mixing with each other even when the sample collection agent is placed on almost the entire surface of the TLC plate. Since each sample can be transferred almost independently to the sample collection agent, the separation ability of the sample can be improved. Therefore, T.L.C.
The infrared spectra of all samples developed on the plate can be accurately measured.

In addition, since the sample collection material is placed in a layer on the surface of the TLC plate and the sample is transferred to it, even if the infrared spectrum of the sample is measured with the sample collection material placed on the surface of the TLC plate, the TLC Since the sample collecting agent layer prevents the carrier comprising the plate from absorbing infrared light, accurate infrared spectral measurements of the sample can be performed.

Therefore, if the sample collection agent is placed on almost the entire surface of the TLC plate, it is easy to automate the measurement using a device such as a TLC scanner.

In the second invention, a ring plate is placed on the sample spot developed on the TLC plate, a sample collection agent is placed on the TLC plate inside the ring plate, and a solvent is added thereto. Since it permeates the carrier of the TLC plate over a wide range and transfers this wide range of the sample to the sample collection agent, it is possible to increase the concentration of the sample in the sample collection agent, improving the measurement sensitivity of the infrared spectrum. Therefore, the measurement accuracy can be further improved.

In addition, the infrared spectrum of the sample can be measured with a sample collection agent placed on the surface of the TLC plate.
When moving the sample collecting agent from the surface of the plate to measure the infrared spectrum of the sample, the sample collecting agent can be moved together with the ring plate, making it easy to handle the sample collecting agent.

[Brief explanation of the drawing]

Figures 1 to 4 show the steps of the embodiment of the first invention, Figure 1 is a perspective view of the TLC plate, Figure 2 is a front view of the sample collection agent sprayed, and Figure 3 is a part of Figure 2. Figure 4 is an enlarged cross-sectional view of the sample transferred to the sample collection agent, Figures 5-7
The figure shows the second step of the second invention, Figure 5 is a perspective view of the TLC plate, Figure 6 is an enlarged cross-sectional view of the main part of Figure 5, and Figure 7 shows the transfer of the sample to the sample collection agent. Enlarged sectional view, No. 8-9
The figures show the process of the conventional example, Fig. 8 is a perspective view of the sample collection agent, Fig. 9 (A) is a cross-sectional view without putting the sample collection agent into the cuvette, and Fig. 9 (FB) is a cross-sectional view when the sample is transferred. It is. 1: TLc plate, 4: sample, 5: sample collection agent, 7: ring plate.

Claims (2)

[Claims] (1) Place a sample collection agent in a layer on the surface of the thin layer chromatography plate on which the sample has been developed, add a solvent to the sample collection agent, transfer the developed sample to the sample collection agent, and transfer the sample to the sample collection agent. A method for measuring the infrared spectrum of a sample on a thin layer chromatography plate. (2) Place a ring plate over the sample spot developed on the thin layer chromatography plate, place a sample collection agent on the thin layer chromatography plate inside this ring plate, and add a solvent to this sample collection agent. . A method for measuring an infrared spectrum of a sample on a thin layer chromatography plate, which comprises transferring the developed sample to a sample collection agent and measuring the infrared spectrum of the sample.