KR101214985B1 - Aids for sample loading on grid for observing tem - Google Patents

Abstract

PURPOSE: An aid for TEM(Transmission Electron Microscopy) grid is provided to load multiple specimens on one grid, thereby reducing the time consumed in specimen preparation. CONSTITUTION: A supporting panel(10) has N micro vertical grooves(11) which are made in all directions from a center(a). A section separator(20) has N blocking membranes(21) which are made in all directions from a center(b). An up-down moving handler is located between the micro vertical grooves and the blocking membranes. The up-down moving handler on the supporting panel moves up and down on the axis the center a meets the center b. Receptive penetration holes(13) is made at the end of the micro vertical grooves.

Description

TEMS observation sample loading aids {Aids for sample loading on grid for observing TEM}

The present invention relates to a grid sample loading aid for observing a plurality of samples in one TEM equipment setting by loading a plurality of samples in one grid when observing a powder sample with TEM.

Conventionally, in order to observe a powder such as ceramic minerals by TEM, the sample preparation process and the sample observation process are performed as follows.

① Sample preparation process (loading sample into grid)

First, the sample is finely divided into hundreds to thousands of microns and dispersed well in a dispersion medium (for example, alcohol), and then left to stand or centrifuged to precipitate large powder particles. The sample is then loaded onto the grid by grasping the grid with a predetermined tweezer, immersing it in the upper layer of the dispersion medium and taking it out. The dispersion medium is allowed to air dry or removed by filter paper and dried.

② Sample observation process (the process of mounting the sample loaded grid on the TEM)

The sample grid thus prepared (sample loaded grid) is mounted to the TEM holder according to a conventional method, the holder is placed in a column of the TEM (column) through an air lock, the column is evacuated, and the holder is placed in the sample stage. go to the stage) to observe.

② In the sample observation process, only one sample grid can be mounted and observed at a time. The cycle of preparing the next sample grid after the holder is placed in the column is completed. It takes a lot of total experiment time to observe them all.

An object of the present invention is to provide a grid sample loading mechanism that enables the TEM observation of a plurality of samples in a short time by mounting a sample grid once by allowing a plurality of samples to be loaded on one grid.

The present invention for achieving the above object, the support portion is provided with n vertical fine through grooves (where n≥2) uniformly radially with respect to the center (a); A partition separator having n vertical blocking plates formed uniformly radially with respect to the center (b); And a vertical movement through the vertical micro-groove and the vertical blocking plate when viewed from the top, so that the partition separation unit can be moved about one vertical axis where the centers a and b coincide with each other. It relates to a grid sample loading aid configured to include.

According to the present invention as described above it is possible to observe by mounting one grid loaded with n samples in the TEM, it is possible to shorten the time to mount or detach the grid for each sample to 1 / n.

Therefore, according to the present invention it will be able to significantly reduce the time required for research and development using the TEM.

1 is a conceptual perspective view showing an example in which n = 4 in the loading aid mechanism according to the present invention.
Figure 2 is a perspective view showing a state in which the partition separator is omitted in Figure 1;
3 is a conceptual view from above of a state in which the grid is mounted on the loading assisting mechanism according to FIG. 1 (not shown in the division separator for convenience of understanding).
4 is a conceptual view from below of a state in which the grid is mounted on the loading aid according to FIG. 1 (not shown in the support part for convenience of understanding).
Figure 5 is an example showing the relationship between the partition separator and the shangdong means in the loading aid according to the present invention, a conceptual diagram showing the movement process of the partition separator.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that the appended drawings illustrate only the contents and scope of technology of the present invention, and the technical scope of the present invention is not limited thereto. In addition, it will be apparent to those skilled in the art that various modifications and changes can be made within the scope of the present invention based on these examples.

As described above, the present invention relates to a grid sample loading aid comprising a support, a compartment separator 20 and a moving means 30. The support portion 10 is formed with a plurality of (n) vertical fine through grooves 11 radially uniformly with respect to the center a, and the partition separation part 20 is uniformly radial with respect to the center b. n vertical blocking plates 21 are formed. Shanghai moving means 30 is viewed from above the vertical through-groove 11 and the vertical blocking plate 21 is located between, the partition separation unit 20 is the center (a) in the upper portion of the support (10) And b) are moving components about one vertical axis coinciding with each other.

1 is a conceptual perspective view showing an example of n = 4 in the loading aid according to the present invention, and a perspective view showing a state in which the partition separator is omitted in FIG. 3 is a conceptual view of the grid mounted state from the top (not shown for compartment separation for convenience of explanation), and a conceptual view of the grid mounted state of FIG. 4 from the bottom (for support of understanding Not shown).

In the present invention, the center (a) of the support portion 10 may be formed with a central vertical through hole 12 having a smaller cross section than the effective diameter of the grid, and at the end of the vertical fine through groove 11, as in the nib, Receiving through-hole 13 may be further formed to accommodate the liquid absorbed by the capillary phenomenon. The vertical fine through groove 11, the central vertical through hole 12, and the receiving through hole 13 will be described later. The purpose of this is to quickly remove the remaining dispersion medium.

Therefore, the groove width of the vertical fine through groove 11 is preferably 0.5 ~ 1mm so that the liquid can be recovered quickly by the capillary phenomenon.

On the other hand, the grid is usually about 3.0mm in diameter and the thickness is about 50㎛. Because of the small size of the grid, if n is greater than 6, the dividing surface is too small and the working space is small, making sample loading difficult. In addition, when n is 1, it is the same as loading a sample on a conventional grid, so it is preferable that 2 ≦ n ≦ 6 in the present invention.

In the present invention, the shankdong means 30 may be a structure that is rotatably coupled with one side of the support portion 10 and the partition separator 20, fixedly coupled to the support portion 10 and the partition separator 20 And may be composed of one or a plurality of vertical axes which are coupled to be movable. 5 is an example in which the shankdong means 30 of the structure that is coupled to one side of the partition separator 20 is applied, and in this example, the partition separator 20 is rotated and separated from the support 10 while rotating (inverse) As shown in the figure, the process of being in close contact with the support 10 while the partition separation unit 20 rotates.

Another specific implementation of the Shanghai East means 30 may be possible, but this is not essential to the present invention, and thus detailed detailed examples thereof will be omitted.

As will be described later, the sample is loaded for each divided surface when using the loading aid according to the present invention. At this time, it may further include a rotating means 40 for integrally rotating the support 10, the compartment separation unit 20 and the shank movement means 30 so that the loading can be made in a position convenient to the operator.

On the other hand, when the grid is mounted on the loading aid according to the present invention, the divided surfaces can be mutually sealed (that is, [the lower surface of the vertical blocking plate 21-the upper surface of the grid, the lower surface of the grid-the upper surface of the supporting portion 10]). Tightly sealed). Therefore, the support part 10 or the partition separator 20 is made of an elastic material, or the shank means 30 to elastically compress the compartment separator 20 in the direction (down direction) of the support part 10. It is good to include an elastic body.

The loading aid according to the present invention operates as follows. : After mounting the grid for TEM in the center (a) of the support 10, the lower surface of the vertical barrier plate 21 by lowering the partition separator 20 by using the shankdong means 30. To be pressed against the top surface of the In this case, the grid is interrupted (not cut) by n vertical planes by the vertical blocking plate 21, and one vertical through-groove 11 is positioned on the bottom surface of each divided plane. In this state, one kind of sample dispersion is appropriately loaded on one divided surface using a dropper or a micropipette. The loaded dispersion is coated on the mesh of the grid dividing surface and the remaining dispersion is quickly removed by capillarity through the vertical micro-through groove 11 located below the grid and does not flow into the adjacent dividing surface. In this way, n samples are loaded in one grid. There is no fear of confusing the sample because the grid has some markings for orientation. The grid loaded with the sample may be dried in a mounted state or taken out and dried in a conventional manner for TEM observation.

10. Supporting section 11. Vertical through hole
12. Central vertical through hole 13. Receiving through hole
20. Partition separator 21. Vertical barrier plate
30. Shanghai East Sudan
40. Rotating means
G. Grid

Claims (5)

A support portion 10 in which n vertical fine through grooves 11 (where n ≧ 2) are formed uniformly radially with respect to the center a;
A partition separator 20 having n vertical blocking plates 21 uniformly radially formed with respect to the center b;
As viewed from the top, the vertical through-groove 11 and the vertical blocking plate 21 are located between the centers of the partition separation unit 20 at the upper portion of the support part 10 so that the centers a and b coincide with each other. Grid sample loading and auxiliary mechanism, characterized in that comprises ;; Shanghai moving means (30) to be able to move about one vertical axis.
The method of claim 1,
Grid sample loading aids, characterized in that the groove width of the vertical fine through groove 11 is 0.5 ~ 1mm.
The method according to claim 1 or 2,
Grid sample loading aid mechanism, characterized in that the receiving through-hole 13 is formed at the end of the vertical fine through groove (11).
The method according to claim 1 or 2,
Grid sample loading aids, characterized in that 2≤n≤6.
The method according to claim 1 or 2,
Grid support for loading the sample characterized in that it further comprises a rotating means (40) for integrally rotating the support portion (10), the partition separation unit (20) and the shandong movement means (30).

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