JP2016161477A - Fractionation device for thin layer chromatograph - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a simple fractionation device for thin layer chromatograph capable of obtaining a target spot without a risk of causing decomposition of a component in the spot.SOLUTION: The fractionation device includes: chromatograph thin layer plate mounting means; spot detection light radiating means B, thin-layer chromatograph thin-layer-plate shooting means C; image displaying means for displaying an image shot by the thin-layer chromatograph thin-layer-plate shooting means C; spot specifying means for allowing an operator to specify a spot position in the image displayed on the image displaying means; and collecting means (F-1 and F-2) for collecting the spot at the position specified by the operator with the spot specifying means.SELECTED DRAWING: Figure 1

Description

The present invention relates to a fractionation apparatus for thin layer chromatography.

The thin-layer chromatograph is an analysis method using a difference in moving speed in a moving layer formed into a thin layer. Such an analysis method has advantages such as simplicity and a small amount of sample used for analysis, and is an analysis method generally used in the field of synthetic chemistry.

It is not easy to fractionate components separated by such a thin layer chromatograph. This is because the separated components are present in a moving layer such as silica, and it is difficult to obtain only the target component from the moving layer. Conventionally, only the portion of the moving bed where the target component is adsorbed is scraped off, and this is mixed with a solvent and filtered to separate the target component.

However, such a method is time-consuming and only a very small amount of the target object is collected, so that it is often impossible to obtain a result corresponding to the labor. Therefore, it has been a general method to perform fractionation / analysis by performing a preparative chromatograph while referring to the results of the thin-layer chromatograph.

On the other hand, if the components separated by the thin-layer chromatograph can be easily separated and analyzed, the labor in synthesis and fractionation will be reduced, which will contribute to the rationalization of research and development. Furthermore, if the collected spot can be directly used for other analysis means (for example, mass spectrometry), there is an advantage that a substance corresponding to the spot can be known by a thin layer chromatograph.

In patent document 1, the apparatus for acquiring the spot on a thin-layer chromatograph is disclosed. However, it is not easy to designate and collect a spot in order to sort by such a method, and time and labor are required. Moreover, although it can also sort out, performing visual confirmation by light emission at the time of irradiating a detection light, in this case, it is not preferable at the point that an operator will be exposed to a detection light.

Patent Document 2 discloses that measurement data is desorbed by applying hot air onto a thin-layer chromatograph substrate and ionized to be subjected to mass spectrometry. However, this is a technique that can be applied only to highly volatile compounds, and some compounds may be decomposed by heating. Furthermore, since fractionation cannot be performed, there is a problem that it cannot be used for analysis methods other than mass spectrometry.

In Patent Document 3, transfer is performed from a thin-layer chromatograph substrate to a PVDF film, and a two-dimensional range is measured using the transferred PVDF film by an imaging mass spectrometer, and mass spectra are obtained at a large number of measurement points. A method is disclosed. However, such a method is not a simple analytical method and cannot be used in a method such as confirmation of a reaction result in a normal synthesis experiment.

European Patent Application Publication No. 0075867 JP 2012-177605 A JP 2010-271157 A

In view of the above, an object of the present invention is to provide a fractionation apparatus for thin-layer chromatograph capable of acquiring a target spot without causing the decomposition of components in the spot with a simple apparatus. To do.

The present invention is a fractionation device for fractionating spots from a thin layer chromatograph thin layer plate,
Chromatographic thin layer plate mounting means (A),
Spot detection light irradiation means (B),
Thin layer chromatograph thin layer imaging means (C),
Image display means (D) for displaying an image photographed by the thin-layer chromatograph thin-layer plate photographing means (C), and
Spot designation means (E) for the operator to designate a spot position in the image displayed on the image display means (D),
Sampling means (F) for picking up a spot at the position designated by the operator by spot designation means (E)
It is the fractionation apparatus for thin layer chromatographs characterized by providing.

The collecting means (F) is preferably a means for sucking the solution in which the spot is dissolved after the nozzle is brought close to the spot position, the solvent is flowed out from the spot to dissolve the spot.

It is preferable that the fractionation apparatus for thin-layer chromatographs of the present invention further includes an analysis means (G) for analyzing the collected spots.
The analyzing means (G) is preferably mass spectrometry.

With the thin-layer chromatograph fractionation apparatus of the present invention, spots separated by the thin-layer chromatograph can be obtained easily and in a short time with a simple operation. At that time, the operator is not exposed to the spot detection light.
Further, the obtained spots can be directly connected to other analysis means for qualitative analysis, or can be sorted for other necessary analysis.
By performing the qualitative analysis, it is possible to easily know what kind of reaction has occurred in the synthesis reaction. Furthermore, if a large amount of information obtained by such a thin-layer chromatograph is secured, subsequent preparative chromatography can be performed efficiently.

It is a schematic diagram which shows an example of the fractionation apparatus for thin layer chromatographs of this invention. It is a schematic diagram which shows an example of the collection means (F) of this invention. It is a schematic diagram which shows an example of the image display means (D) of the fractionation apparatus for thin layer chromatographs of this invention. It is a schematic diagram which shows an example of the fractionation apparatus for thin layer chromatographs of this invention.

The present invention is described in detail below.
The present invention is a fractionation apparatus for thin layer chromatographs. That is, it is a fractionation device for acquiring the components constituting the spot separated by the thin layer chromatograph.
The thin layer chromatographic fractionation apparatus of the present invention includes the elements (A) to (F) described in detail below, and the above-described effects can be obtained by combining these elements. Below, each element of (A)-(F) is explained in full detail.

The chromatographic thin layer plate mounting means (A) in the present invention is a stage for mounting the chromatographic thin layer plate in the apparatus. In the present invention, since the components constituting the spots are obtained from the thin layer plate after thin layer chromatography, the chromatographic thin layer plate is used in the apparatus in order to perform such processing. It is necessary to place it in position. The chromatograph thin layer plate mounting means (A) is a mounting means for this purpose. In the present invention, for the chromatograph thin layer plate placed at a specific position, an operation for sorting is performed by the following elements.

The preparative apparatus for thin layer chromatography of the present invention irradiates the chromatographic thin layer plate placed in this way with detection light by the spot detection light irradiating means (B), thereby thin layer chromatographic thin layer plate The chromatograph thin layer plate is photographed by the photographing means (C).

The spot detection light irradiation means (B) is a means for visualizing spots by irradiating the chromatograph thin layer plate with detection light. Since the chromatographic thin layer plate-like spot is often colorless, it cannot be visually recognized as it is. In addition, it is necessary to irradiate detection light in order to display a colored spot clearly on the image display means (D) described in detail below. Therefore, the spot is visualized by irradiating with detection light such as ultraviolet light and visible light. As means for irradiating two or more kinds of detection light, these may be switched and used as necessary.

The thin-layer chromatograph thin-layer imaging means (C) is an imaging means for imaging the chromatographic thin-layer board in which spots are visualized by the spot detection light irradiation means (B). As described above, in the present invention, it is preferable that the operator is not directly exposed to the spot detection light. In the present invention, observation is performed by photographing a chromatographic thin layer plate by the thin layer chromatograph thin layer plate photographing means (C) and displaying it on the image display means (D) shown below. Thereby, the operator can observe the chromatographic thin layer plate without being exposed to the irradiated detection light.

The thin-layer chromatograph thin-layer plate photographing means (C) can be a video camera for photographing a moving image, a camera for photographing a still image, or the like, but is preferably a video camera. The video camera and cameras used here are not particularly limited, and ordinary cameras can be used.

The image display means (D) is a means for displaying an image photographed by the thin-layer chromatograph thin-layer plate photographing means (C). The moving image and still image photographed by the thin-layer chromatograph thin-layer plate photographing means (C) are displayed on the image display means (D), and the spot to be acquired is designated on the displayed screen. Thereby, a spot can be designated by a simple method, and the burden on the operator can be reduced.
The image display means (D) can be any known image display means such as a liquid crystal display.

The spot designating means (E) is a means for designating a spot to be collected among spots on the thin layer chromatograph thin layer plate displayed on the image display means (D). That is, it is means for designating which part of the image display means (D) is to be subjected to the collection means (F) described in detail below.

The spot designating means (E) is not particularly limited. For example, a method of designating a position by moving the cursor with means such as a numeric keypad or a mouse, and an image display means (D) using the image display means (D) as a touch panel. You can list the method of specifying directly by touching.

The collection means (F) is a means for collecting spot components in the spot position designated by the operator by the spot designation means (E) described above. That is, it is a means for acquiring a component present at a predetermined position on the thin layer chromatograph thin layer plate based on the position information input by the spot designating means (E).

Such a sampling means (F) is not particularly limited, and for example, the solvent can be flowed out and sucked, and can be moved to any position of the chromatographic thin layer plate mounting means (A). The thing provided with the nozzle can be mentioned. Thereby, the nozzle is moved to the position designated by the spot designating means (E), the solvent is caused to flow out from the nozzle onto the chromatographic thin layer plate, the spot component is dissolved, and then the solution is sucked. Components constituting the spot can be collected.

Further, the collecting means (F) may be a scraping means capable of moving to an arbitrary position of the chromatograph thin layer plate placing means (A). Thus, the moving layer into which the components constituting the spot have permeated may be scraped off in the solid state as it is.

The sample collected by the collecting means (F) may be directly introduced into the container and stored, or may be directly introduced into the analyzing means. Furthermore, a part may be stored and a part may be introduced into the analysis means.

The fractionation apparatus for thin layer chromatographs of the present invention may further comprise an analysis means (G) for analyzing the components of the collected spots. If a qualitative analysis can be performed based on the chromatographic thin layer plate, it will become clear in advance which spot is important as the object to be sorted when performing a chromatograph for sorting. For this reason, the chromatographic conditions (for example, the kind of solvent to be used, gradient method, etc.) for obtaining the target spot with high accuracy and efficiency can be predicted before the preparative chromatograph is performed. For this reason, it is useful also for efficiency improvement of the preparative chromatograph itself.

Further, the analysis by the analysis means (G) may reveal that a plurality of kinds of compounds are mixed in one spot. If such a fact becomes clear at the time of thin-layer chromatography, reexamination of the preparative method (for example, change of chromatographic conditions) will make subsequent experiments more efficient. There is also an advantage that it can be done.

The analysis means (G) is not particularly limited, and examples thereof include mass spectrometry, NMR, differential refraction (RI), evaporative light scattering detector (ELSD), ultraviolet absorption analysis, and visible light absorption analysis. . Moreover, as a thing provided with these several types of analysis means, according to the kind of analysis object compound, a preferable analysis means may be selected and used. Among these, it is particularly preferable to carry out by mass spectrometry.

Hereinafter, the fractionating apparatus for thin-layer chromatograph of the present invention will be described in more detail with reference to the drawings. In the following drawings, the sampling means (F) is provided with a nozzle that can flow out and aspirate the solvent and can move to an arbitrary position of the chromatographic thin layer plate mounting means (A). The case of the method of sorting will be described in detail. In addition, the collection means (F) in this invention is not limited to such a thing. Regarding other points as well, FIGS. 1 to 4 show an example of the embodiment, and the present invention is not limited to those described in FIGS.

FIG. 1 shows an example of the configuration of spot detection light irradiation means (B), thin-layer chromatograph thin-layer plate photographing means (C), and sampling means (F) in the thin-layer chromatographic fractionation apparatus of the present invention. FIG.

In FIG. 1, the thin-layer chromatographic plate 1 has been developed, and a first spot 2-1 and a second spot 2-2 are present. Such a thin layer chromatographic plate 1 is placed on a chromatographic thin layer plate placing means (A) (not shown) in the apparatus.

Such a thin layer chromatographic plate 1 is irradiated with light by the spot detection light irradiating means (B), so that the spots 2-1 and 2-2 can be visually recognized. The thin-layer chromatograph thin-layer plate photographing means (C) is a means for photographing such a thin-layer chromatographic plate 1.

The thin layer chromatographic fractionation apparatus of the present invention further comprises a sampling means (F). Thereby, the spot component in the designated spot 2-1 is collected. In the embodiment shown in FIG. 1, the collecting means (F) is composed of an organic solvent supply means (F-1) and a nozzle (F-2).

An example of the detailed mode of the sampling means (F) having such a mode is shown in FIG. The collection means (F) shown in FIG. 2 is composed of an organic solvent supply means (F-1), a nozzle (F-2), and a suction pump (F-3).
The organic solvent supply means (F-1) is a means for supplying a predetermined amount of organic solvent to the nozzle. As the organic solvent used here, a solvent capable of dissolving the spot component in the spot to be obtained is selected.

The nozzle (F-2) is for causing the supplied organic solvent to flow out onto the designated spot 2-1 of the thin-layer chromatograph plate 1.
As shown in FIG. 1, the nozzle (F-2) can be moved in three directions, that is, the X direction, the Y direction, and the Z direction. Thereby, the nozzle (F-2) is moved to a predetermined position, and the organic solvent is supplied onto the designated spot 2-1 of the thin layer chromatograph plate 1. As a result, the fraction component contained in the spot 2-1 is dissolved in the organic solvent. Then, the organic solvent in which the fraction is dissolved is again sucked from the nozzle (F-2) by the suction pump (F-3) at the timing of sufficient dissolution.
Thereby, components contained in the thin-layer chromatograph plate 1 can be acquired.

Furthermore, in FIG. 3, an example of the aspect of an image display means (D) and a spot designation | designated means (E) was shown.
In the image display means (D), an image of the thin-layer chromatograph plate 1 photographed by the thin-layer chromatograph thin-layer plate photographing means (C) is displayed. Thus, the operator can visually confirm the spot position on the thin-layer chromatograph plate 1.

In the aspect shown in FIG. 3, the spot designation means (E) includes a cursor (E-2) for displaying the nozzle (F-2) position and a cursor position moving means (E-1).
Then, the cursor position moving means (E-1) designates the position of the cursor (E-2) in the X-axis-Y-axis direction, thereby determining the position to be acquired by the sampling means (F). When the position is determined, the sampling means (F) is activated, and the spot components constituting the spot on the thin-layer chromatograph plate 1 are acquired by the above-described configuration.

By repeating such an operation for a plurality of spots on the thin-layer chromatograph plate 1, spots for the plurality of spots can be obtained.

In FIG. 4, an example of the whole structure of the fractionation apparatus for thin-layer chromatographs of this invention was shown. An operator installs the developed thin-layer chromatograph plate 1 at a predetermined position in the fractionating apparatus 10 for thin-layer chromatograph of the present invention. Then, a predetermined spot component is acquired by the method described above, and the obtained spot component is sent to the analysis means (G) and / or the sorting means (H).

By sending it to the analysis means (G), it is possible to perform chemical analysis and know the structure of the spot component. Moreover, the chemical analysis and other tests about the obtained isolated sample can also be performed by sending to a fractionation apparatus (H).

The fractionation apparatus for thin layer chromatography of the present invention can be used as a chemical analysis means by itself. Furthermore, it can also be used for information acquisition in the previous stage of preparative chromatography.

(B) Spot detection light irradiation means (C) Thin layer chromatograph thin layer imaging means (D) Display means (E) Spot indication means (E-1) Cursor position moving means (E-2) Cursor (F) Sampling Means (F-1) Organic solvent supply means (F-2) Nozzle (F-3) Suction pump (G) Analyzing means (H) Sorting means 1 Thin layer chromatographic plates 2-1, 2-2 Spot 10 Thin layer Chromatographic preparative device

Claims (4)

A sorting device for sorting spots from a thin layer chromatograph thin layer plate,
Chromatographic thin layer plate mounting means (A),
Spot detection light irradiation means (B),
Thin layer chromatograph thin layer imaging means (C),
Image display means (D) for displaying an image photographed by the thin-layer chromatograph thin-layer plate photographing means (C), and
Spot designation means (E) for the operator to designate a spot position in the image displayed on the image display means (D),
Sampling means (F) for picking up a spot at the position designated by the operator by spot designation means (E)
A thin-layer chromatographic fractionation device comprising: 2. The thin-layer chromatograph according to claim 1, wherein the collecting means (F) is a means for bringing the nozzle close to the spot position, allowing the solvent to flow out from the spot position, dissolving the spot, and then sucking the solution in which the spot is dissolved. Preparative device for graphs. Furthermore, the fractionation apparatus for thin-layer chromatographs of Claim 1 or 2 provided with the analysis means (G) for analyzing the fractionated spot. The fractionating device for thin-layer chromatograph according to claim 3, wherein the analyzing means (G) is mass spectrometry.

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