WO2005114172A1

WO2005114172A1 - Device for carrying out thin-film chromatography

Info

Publication number: WO2005114172A1
Application number: PCT/EP2005/005491
Authority: WO
Inventors: Joachim Mannhardt
Original assignee: J & M Analytische Mess- Und Regeltechnik Gmbh
Priority date: 2004-05-21
Filing date: 2005-05-20
Publication date: 2005-12-01
Also published as: DE202004008278U1

Abstract

The invention relates to a device for carrying out thin-film chromatography, in particular for the chromatographic separation of substance mixtures. Said device is equipped with: a processing unit that can be displaced in at least two axial directions and holds a tool for applying a mixture of substances to a support plate and a tool for transporting the support plate; a plane for holding the support plate; an immersion unit for developing the support plate; a drying device for drying the support plate; and a detection unit for analysing traces of the substance mixture.

Description

Device for performing a thin layer chromatography

The invention relates to a device for performing thin-layer chromatography, in particular for the chromatographic separation of mixtures of substances.

Chromatography is a process for separating mixtures of substances into their individual components. These are distributed between a stationary and a mobile phase.

One application of the method is thin-layer chromatography, in which the constituents of a substance mixture can be separated using their different distribution and adsorption and subsequently identified. The components are separated in a thin porous layer which is applied to a carrier plate, in particular a glass or plastic plate. This layer serves as a stationary phase in the process and can consist of silica gel, aluminum oxide or cellulose powder.

In the area of a lower edge of the carrier plate, the sample to be examined or the mixture of substances in solution is applied in the form of spots or strips. After the solution has dried, the carrier plate is inserted vertically into an immersion bath, so that the carrier plate comes into contact with a suitable solvent which is introduced into the chamber. The solvent, which is the mobile phase, rises vertically driven by capillary forces up. The solvent or eluent takes the individual components of the mixture of substances to different extents due to their unevenly strong adsorption on the stationary phase. The individual components then show up as spots on the carrier plate by their color or, after visualization, by means of a color reaction with a developer or by means of fluorescence in UV light.

Thin-layer chromatography has a decisive advantage over other methods, namely that it can be carried out within a relatively short period of time. Varying the stationary phase also creates many separation options.

The procedure is carried out in four individual steps, which can be automated in themselves, but not in a continuous process. The necessary individual steps are: the application of sample and standard solutions, the development of the carrier plate in the immersion bath (lying or standing), the drying of the carrier plate and the detection of the respective traces on the carrier plate.

To apply the sample, the carrier plate is manually clamped onto a receiving device and the sample is dispensed onto the carrier plate. The carrier plate must then be removed manually and then immersed in an immersion bath. The plate can be automatically immersed in the immersion bath and removed from the immersion bath by means of a robot. However, the loading of the diving pool only possible manually or using a special loading robot. The carrier plate is then dried. This can be done in air or accelerated by means of a heating plate or a blower. Here, too, the drying device can only be loaded manually or using a special loading robot. The sample is detected after the carrier plate has dried by means of a detection device. Known detection devices have a light-tight, closed chamber so that the optical detection is not disturbed by extraneous light. The carrier plate is inserted manually or by means of a robot into the detection device for detection and then removed for archiving.

Manual loading of the individual facilities is very time-consuming; on the other hand, the use of robots causes high costs.

An open detection device is known from DE 198 11 150, in which a light-tight, closed chamber can be dispensed with.

The object of the present invention is to provide a structurally simple, reliable and economical

To provide a device for performing a thin layer chromatography.

According to the invention, this object is achieved by the features of claim 1.

According to the invention, the device has a processing device that can be moved in at least two axial directions Inclusion of a tool for applying a mixture of substances to a carrier plate and a tool for transporting the carrier plate. Furthermore, a level for receiving the carrier plate and a dipping device for developing the carrier plate are provided in the device. The device according to the invention also has a drying device for drying the carrier plate and a detection device for analyzing traces of the mixture of substances. A fully automated implementation of thin-layer chromatography is now possible by means of the processing device which can be moved in at least two axial directions and which can also be referred to as a robot. The processing device can carry out the following operations, which can be carried out analogously to manually or via several special robots: rapid application of the substance mixture to the carrier plate, introduction of the carrier plate into the immersion device, introduction of the carrier plate into the drying device and transportation of the carrier plate to the detection device, which traces of the mixture of substances applied to the carrier plate are analyzed.

According to the invention, all of the devices required for carrying out a method for thin-layer chromatography are accommodated or stored in one device, the individual method steps no longer being able to be carried out manually, but rather mechanically or fully automatically. In an embodiment of the device according to the invention it can be provided that the detection device is arranged in such a way that the analysis of traces of the substance mixture takes place in a plane which is essentially plane-parallel to the plane but is offset perpendicularly to it.

The optical detection of the traces of the mixture of substances is thus not disturbed, since the plane for receiving the carrier plate, which is arranged in a solvent environment, is offset perpendicular to the plane in which the detection takes place. A fixed arrangement of the detection device is thus also possible. This means that a cover or a closed device can be provided for the detection.

In a further advantageous embodiment of the invention it can be provided that the processing device can be moved along a support spanning the plane for receiving the support plate, the immersion device, the drying device and the detection device.

By coupling the processing device to a carrier, which is constructed in such a way that the processing device can directly control the plane for receiving the carrier plate, the immersion device, the drying device and the detection device, a simplified procedure of the method as well as a simple structural design of the Device possible.

Advantageous refinements and developments result from the remaining subclaims. An execution game of the invention is explained below with reference to the drawing.

The single figure shows a device for performing thin-layer chromatography, the chromatographic separation process using the device being able to be carried out fully automatically or without manual support.

The device 1 has a processing device 2 which can be moved in three axial directions. The processing device 2 is composed of an x-axis unit 3, a y-axis unit 4 and a z-axis unit 5, which ensure travel in a plate plane 6 and perpendicular to it. The plate level 6 is designed as a base plate or module carrier with a leveling option. The processing device 2 has a tool 7 for applying a mixture of substances to a carrier plate, not shown, and a tool 8 for transporting the carrier plate. A dispensing unit 7 is provided as a tool for applying the substance mixture to the carrier plate. To transport the carrier plate, a gripping device 8 is provided as a tool, which has a turning / tilting device 9. The turning / tilting device

9 can be designed as a swivel or tilt joint with permanently assigned angular positions or grid-free assignment of an angle of rotation. In order to apply the mixture of substances to the carrier plate by means of the dispensing unit 7, the x-axis unit 3 has a storage container 10 which is filled with the mixture of substances and / or a standard / reference solution. A supply line 11 connects the storage container

10 with a pump and valve unit 12 for selecting a solution from the storage container 10 so as to either dard or reference solution or a mixture of substances to be applied to the carrier plate.

Furthermore, the device 1 on the plate plane 6 has a plane 13 for receiving the carrier plate. In the plane 13, a receiving device 14 is provided for one or more carrier plates. The carrier plate is secured against slipping in a known manner. After the carrier plate has been applied to the receiving device 14, the solution to be analyzed is applied. In addition to the receiving device 14, the device 1 has an immersion device 15 for developing the carrier plate after the substance mixture has been applied to it. The immersion device 15 can be designed as an immersion bath, the immersion device 15 being arranged vertically in this exemplary embodiment. In this way, the carrier plate can be inserted vertically into the immersion device 15 for development. It is of course also possible to arrange the diving device 15 at an angle or parallel to the plate plane 6. A drying device 16 for drying the carrier plate is also provided on the plate level 6. The drying device 16 has a shelf 16 '(not shown in more detail) for drying the carrier plate, it being possible for the carrier plate to be dried more quickly with a hair dryer 17 and / or with a heating plate, not shown.

It is also possible to integrate an AMD development process. For this purpose, an AMD spray chamber can be integrated into the device 1 as a further device. After the chromatographic separation by means of the devices 15 and 16 described, the actual analytical measurement takes place, namely the detection, which can be substance-specific and quantitative, depending on the type of detection. For this purpose, a detection device 18 is provided for analyzing traces of the mixture of substances on the carrier plate. The detection device 18 is arranged in a further plane, which does not correspond to the plane 13 for receiving the carrier plate, in the device 1. In the exemplary embodiment, the detection device is arranged such that the analysis of traces of the substance mixture takes place above level 13, ie offset in the z direction. This is advantageous in that the optical detection is not disturbed. In this exemplary embodiment, the detection device 18 is attached to the x-axis unit 3 of the device 1. It is of course also possible to arrange the detection device 18 in a lower region of the device 1, for example next to the diving device 15. An open or a closed detection device can be used for the analysis of the carrier plates.

The detection device 18 has a light source 19, a spectrometer unit 20 and a measuring head or a detection light guide 21. The measuring head 21 is connected to the light source 19 and the spectrometer unit 20 via light guides 24. The measuring head 21 is also permanently connected to a carrier, here in this exemplary embodiment to the x-axis unit 3. To analyze the carrier plate, it is not the measuring head 21 that is moved, but the carrier plate, in order to achieve sufficiently precise results. Portal carrier 22, which carry the x-axis unit 3 should in their height should be such that a vertical insertion of the carrier plate into the immersion device 15 is possible.

In the figure, the processing device 2 is shown with two tools, namely the dispensing unit 7 and the gripping device 8. It is also possible for the machining device 2 to have only one tool 7 or 8 and, depending on which tool is necessary, the tools 7 and 8 to be changed. Magazines 23 can also be provided in the device for receiving tools 7 and 8 and for receiving the carrier plates, thereby ensuring that the tools or carrier plates can be picked up and put down quickly. The magazines 23 can either contain only empty plates or only evaluated carrier plates or represent a magazine in which an empty plate is removed and placed there again after the analysis.

A more simplified implementation of the method of thin layer chromatography is given by an arrangement in which the carrier plates are arranged vertically in the magazine 23, takes place, the application of the material mixture in a vertically standing support plate and the drying also in a vertical arrangement of the ^'support plate. The detection device 18 can be arranged in the device 1 such that the detection takes place in the y / z plane, that is to say also perpendicularly. Thus, the turning / tilting device 9 can be dispensed with and the gripping device 8 can be configured in a substantially simplified manner. The implementation of thin-layer chromatography with the aid of device 1 will be briefly explained below.

The principle of thin-layer chromatography is to spread a suitable adsorbent in a thin layer onto the carrier plate, which is located on the receiving device 14, to dry and possibly activate this layer and then to a "starting point" on the carrier plate by means of the dispensing unit 7 apply a drop of the mixture of substances to be analyzed. By moving in the direction of the y-axis unit 4 (marked with an arrow), the position for the individual order tracks and the order type (point or line) can be selected. The starting point for the plots is determined via the x-axis unit 3. The positions of the tracks are registered in the sequence program or already specified by a predefined method program.

After applying the mixture of substances or the analysis solutions, the carrier plate is dried again until the solvent has evaporated from the starting spot. In the case of highly sensitive substances or very active carrier plates, a device for flushing the carrier plates with a protective gas can be provided. The preparation of the thin-layer carrier plate is now complete. For the development, the carrier plate is now rotated or tilted vertically by means of the gripping device 8 of the processing device 2 and introduced into the immersion device 15, which is provided with a flow agent, a so-called solvency. The carrier plate is introduced into the immersion device 15 by lowering the z-axis unit 5. The solvency passes through the layer of the carrier as a result of capillary action upwards. carrier plate. Here, the separation mixture is separated into a number of spots corresponding to its number of components, all of which must then lie in a line perpendicularly from the "starting point" up to a rise in solvency (solvent front). After the carrier plate has been developed, it is again removed from the dipping device 15 by means of the gripping device 8 and placed in the drying device 16 for drying. As already mentioned, the drying of the carrier plate can be accelerated with the aid of a hair dryer 17 or a heating plate (not shown). In this way, the actual thin-layer chromatographic separation of the mixture of substances is completed. Depending on the chemical nature of the separating substances, these can be recognized directly or only with aids.

After the carrier plate has dried by means of the drying device 16, it is picked up by the gripping device 8 and brought to the starting position for the detection by means of the detection device 18. In the exemplary embodiment shown, the starting position of the carrier plate is not in the same plane 13 for receiving the carrier plate, but in an upper region of the device 1 near the x-axis unit 3. The carrier plate is now under the measuring head 21 for detection along the track position moved through. The measuring head 21 is connected to the spectrometer unit 20, which is designed as a diode array detector, via the light guide 24. After the analysis of the carrier plate, it is removed from the detection plane by means of the gripping device 8 and placed in the magazine 23. The processing device 2 can then remove a new carrier plate from the magazine 23 and carry out the thin-layer chromatography on the holder. Put the measuring device 14 down. In order to carry out thin-layer chromatography more quickly, a further carrier plate can be removed from the magazine 23 after the development of a carrier plate in the immersion device 15 and this can be placed on the receptacle 14 in order to apply a mixture of substances.

By means of the device 1, all transfer and transport functions can now be carried out with the same axis units. In this way, fully automated implementation of thin-layer chromatography is ensured, which results in an increase in economy. Furthermore, the device 1 thus offers a possibility of freely arranging the substance mixtures, standard solutions, washing / cleaning solutions, the immersion device 15, the drying device 16, tools 7 and 8 and magazines 23 on the plate level 6.

Online thin-layer chromatography is also possible in an automated manner if the gripping device 8 removes the detection device 18 from the holder on the x-axis unit 3 and positions it over a special device for online thin-layer chromatography. This device has a storage container for the mobile phase (eluent) and a receptacle for the carrier plate.

Claims

claims

1. Device for carrying out a thin layer chromatography, in particular for the chromatographic separation of substance mixtures, with a processing device (2) which can be moved in at least two axial directions for receiving a tool (7) for applying a substance mixture to a carrier plate and a tool (8) for transporting the carrier plate; a plane (13) for receiving the carrier plate; a dipping device (15) for developing the carrier plate; a drying device (16) for drying the carrier plate; and a detection device (18) for analyzing traces of the mixture of substances.

2. Device according to claim 1, since you know that the processing device (2) along a plane (13) for receiving the carrier plate, the immersion device (15), the drying device (16) and the detection device ( 18) spanning carrier (3) is movable.

3. Apparatus according to claim 1 or 2, characterized in that the detection device (18) is arranged such that the analysis of traces of the mixture of substances takes place in a plane which is substantially plane-parallel to the plane (13) but is offset perpendicularly thereto.

4. Apparatus according to claim 1, 2 or 3, so that the detection device (18) has a light source (19), a spectrometer unit (20) and a measuring head (21).

5. The device according to claim 4, so that the measuring head (21) is connected to the light source (19) and the spectrometer unit (20) via light guides (24).

6. Device according to one of claims 2 to 5, that the measuring head (21) is firmly connected to the carrier (3).

7. The device according to claim 1, so that the tools (7, 8) of the processing device (2) are interchangeable.

8. The device according to claim 1, wherein the processing device (2) has two tools (7, 8) at the same time.

9. The device according to claim 1, 7 or 8, so that the tool for applying a mixture of substances to the carrier plate is designed as a dispensing unit (7).

10. The device according to claim 1, 7 or 8, since you rchgek characterized that the tool for transporting the carrier plate is designed as a gripping device (8).

11. The device as claimed in claim 10, so that the gripping device (8) has a rotary / tilting device (9).

12. The apparatus of claim 5, so that the carrier (22) has a height that enables the carrier plate to be inserted vertically into the immersion device (15).

13. The apparatus according to claim 1, at least one magazine (23) for receiving tools (7, 8) and / or carrier plates.