KR101748821B1 - Method for Loading Plural Specimens on One Grid for Observing TEM and Specimen Loading Device - Google Patents

Abstract

The present invention relates to a method of loading a sample and a sample loading device for loading a plurality of samples on one grid when observing the sample with a TEM so that a plurality of samples can be observed by one TEM equipment setting, (A) horizontally mounting a mask having one or a plurality of openings of a size less than ½ of the effective sub-area of the grid, at a predetermined height of a vertically upper portion of one region of a horizontally placed grid; (B) horizontally mounting the ultrasonic vibrator at a predetermined height above the mask opening so that the mist plate faces downward; (C) loading a sample liquid on the upper surface of the ultrasonic vibrator and operating the ultrasonic vibrator; (D) replacing or washing the ultrasonic vibrator and the mask in another region not overlapping one region of the grid, and repeating the steps (A) to (C) with another sample liquid A method for loading a plurality of samples onto a grid for observing a TEM, and a sample loading apparatus therefor.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a method for loading a plurality of samples onto a single TEM observation grid,

The present invention relates to a method of loading a sample and a sample loading device for loading a plurality of samples on one grid by observing a sample with a TEM so that a plurality of samples can be observed with one TEM equipment setting.

Conventionally, in order to observe a sample with a TEM, the following sample preparation process and sample observation process are performed.

① Sample preparation process (process of loading sample on grid)

First, the sample is well dispersed in a dispersion medium (for example, alcohol) and allowed to stand or centrifuge to precipitate large particles. Then, the sample is loaded into 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 dried naturally or is removed by filter paper and dried.

② Sample Observation Process (The process of observing and loading a sample loaded grid on TEM)

The prepared sample grid (sample-loaded grid) was attached to a TEM holder according to a conventional method, and the holder was placed in a column (column) of a TEM through an air lock, the column was evacuated and the holder was moved to the sample stage .

However, in the sample observation process, only one sample grid can be observed at one time, and it takes a long time to complete the observation after the holder is inserted into the column, and then prepare for the next sample grid mounting. It takes a considerable amount of time to observe all the samples.

Accordingly, the present inventors have found that a support 10 having n vertical fine penetration grooves 11 (n > = 2 in this case) radially uniformly formed with respect to the center (a) in the patent 10-1214985; A partitioning part (20) having a vertical blocking plate (21) formed n uniformly radially with respect to the center (b); The vertical separator 20 is positioned above the supporting portion 10 with the centers a and b being aligned with each other while the vertical micro through-channels 11 and the vertical blocking plate 21 are positioned between the vertical micro through- And a vertically moving means (30) for moving up and down with respect to one vertical axis (see Figs. 4A and 4B).

However, according to the related art, the sample liquid is moved to the neighboring region (compartment) by the capillary phenomenon through the contact surface between the grid G and the vertical blocking plate 21 indicated by a red line in FIG. There were disadvantages.

Patent No. 10-1214985

An object of the present invention is to provide a sample loading method and a sample loading apparatus which can accurately observe a plurality of samples in a short period of time by loading a plurality of samples on one grid without mutual contamination by mounting the sample grid once .

According to an aspect of the present invention, there is provided a lithographic apparatus including: (A) a mask having one or a plurality of openings each having a size less than a half of an effective area of the grid at a predetermined height of a vertically- Horizontally mounting; (B) horizontally mounting the ultrasonic vibrator at a predetermined height above the mask opening so that the mist plate faces downward; (C) loading a sample liquid on the upper surface of the ultrasonic vibrator and operating the ultrasonic vibrator; (D) replacing or washing the ultrasonic vibrator and the mask in another region not overlapping one region of the grid, and repeating the steps (A) to (C) with another sample liquid To a method for loading a plurality of samples on a grid for TEM observation.

According to the present invention as described above, it is possible to mount one grid loaded on a TEM without observing the intersection (blur) of the n samples, so that the time for attaching and detaching the grid for each sample has been reduced to 1 / n .

Therefore, according to the present invention, time required for research and development using a TEM and time for using expensive equipment (TEM) can be greatly reduced.

1A is a conceptual diagram showing a sample loading apparatus according to the present invention.
1B is a photograph of a production example of a sample loading apparatus according to the present invention.
1C is a photograph showing the operation state of the sample loading apparatus according to the present invention.
2A is a photograph of a sample grid loaded with FeO nanoflow powder using the method and apparatus according to the present invention.
2B is a photograph of a sample grid loaded with FeO nanoflow powder using the method and apparatus according to the present invention.
3 is a conceptual photograph showing that different samples can be loaded in four regions of the grid using the method and apparatus according to the present invention.
4A and 4B are conceptual diagrams showing a grid sample multi-loading auxiliary mechanism according to the prior art;

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. It will be apparent to those skilled in the art that various changes and modifications can be made within the scope of the technical idea of the present invention based on these examples.

As described above, according to the present invention, there is provided an ultrasonic diagnostic apparatus comprising: an ultrasonic vibrator for spraying a sample liquid downward; and a plurality of samples to be cleanly loaded on a single TEM observation grid by utilizing a mask for defining a position and a region, And a sample loading device.

The sample loading method according to the present invention is based on the arrangement of the grid (10) - mask (20) - ultrasonic vibrator (30) in order from bottom to top on a vertical space.

(A) a mask 20 having one or a plurality of openings 21 having a size less than ½ of the effective area of the grid 10 at a predetermined height above one region of the grid 10, . Ultimately, it is preferable that the sample liquid is free to fall down, so that it is preferable that the grid 10, the mask 20, and the ultrasonic transducer 30 are both placed horizontally. A predetermined opening 21 is formed in the mask 20. The size of the opening 21 is set to be less than one half of the effective area of the grid 10, Which means loading the above sample. For example, when four samples are to be loaded, the size of the opening 21 should be less than 1/4 of the effective area of the grid 10. The expression "less than" is not indefinite, since a person skilled in the art can appropriately determine the size of the opening 21 according to the characteristics of the sample (liquid) and the skill level of the operator.

The number of openings 21 may be one or more. It is preferable that only one opening 21 is opened for one sample liquid because there is a possibility that one sample liquid mist may pass through the plurality of openings 21 when there is a plurality of sample liquids.

(B) Next, the ultrasonic vibrator 30 is mounted at a predetermined height above the opening 21 of the mask 20 so that the mist plate is directed downward.

It will be appreciated that the distance between the grid 10 and the mask 20 and the distance between the mask 20 and the ultrasonic transducer 30 can be appropriately adjusted depending on the amount and characteristics of the sample liquid. ) Between the mask 20 and the ultrasonic transducer 30 so that the distance between the mask 20 and the ultrasonic transducer 30 is such that the mist liquid can fall freely.

When the arrangement of the grid 10, the mask 20 and the ultrasonic transducer 30 is completed, (C) the first sample liquid is loaded on the upper surface of the ultrasonic transducer 30 and the ultrasonic transducer 30 is operated.

At this time, the sample liquid is fogged down by the ultrasonic vibrator 30, and a part of the sample liquid is masked by the mask 20 and only the sample liquid falling down into the opening 21 reaches the area (position So that loading of the first sample liquid is completed.

(D), in a region (region where the first sample liquid is loaded) and another region (region in which the second sample liquid is to be loaded) that does not overlap with one region (region where the first sample liquid is loaded) of the grid 10, 30) (and the mask 20) are replaced or washed, and the above steps (A) to (C) are repeated with the second sample liquid. It is preferable to replace or wash the mask 20 together with the sample liquid every time the sample liquid is exchanged.

On the other hand, in the present invention, after the step (C), the sample solution may be dried each time the sample solution is loaded, or all the sample solution that has been loaded after the final step may be dried at a time.

The sample loading apparatus according to the present invention is for applying the above-described method of loading a sample, and is a device arranged in the order of grid 10 - mask 20 - ultrasonic oscillator 30 on the vertical space from bottom to top . 1A schematically shows a sample loading method and apparatus according to the present invention. FIG. 1B is a photograph of a sample of the sample loading apparatus (part of the present invention) and FIG. 1C is a photograph showing the operation state of the sample loading apparatus (part). The silver box in the attached photograph serves only as a support for temporarily supporting the device according to the present invention.

The sample loading apparatus according to the present invention comprises: (A) a grid fixing unit for horizontally placing the grid (10) and the grid (10); (B) a mask mounting unit for horizontally moving and vertically moving relative to the grid fixing unit while horizontally fixing the mask 20 and the mask 20; (C) an ultrasonic transducer mounting part for horizontally moving and vertically moving relative to the grid fixing part while fixing the ultrasonic transducer (30) and the ultrasonic transducer (30). Here, 'horizontal movement' is a concept involving rotational movement.

It is obvious that there may be a predetermined driver and a control unit for operating and adjusting the ultrasonic vibrator 30 in the present invention.

According to the present invention, when the sample liquid is loaded on the upper surface of the ultrasonic vibrator 30 and the ultrasonic vibrator 30 is operated, the sample liquid containing the sample (dissolved, dispersed, or mixed) becomes vaporized while being vaporized. At this time, a part of the sample liquid passes through the opening 21 of the mask 20 and is loaded only in one area of the grid 10 corresponding to the opening 21 thereof. Subsequently, the ultrasonic transducer 30 (and the mask 20) is replaced (or washed), and another sample liquid is repeatedly loaded in another area of the grid 10 in the same manner. The size and number of the openings 21 and the distance between the ultrasonic transducer 30 and the mask 20 are adjusted according to the kind of the sample, the number of the sample, the concentration of the sample solution and the like.

After all the loading operations are completed, the grid 10 is dried according to a conventional method, and then mounted on a TEM and observed.

According to the present invention, since fine water vapor of different sample liquids is loaded in each region of the grid 10 in a precisely controlled state through the openings 21 of the mask 20, the phenomenon that the sample liquids are mixed with each other or spread It is possible to load a plurality of sample liquids into one grid 10 without the need.

FIG. 2A shows a sample grid 10 loaded with FeO nanoflow powder using the method and apparatus according to the present invention. It can be confirmed that the FeO nanoflow powder is stably attached to the grid 10. 2B is a photograph of a sample grid 10 in which FeO nanoflowers are loaded using the method and apparatus according to the present invention. The FeO nanoflow is formed by the boundary 21 of the mask 20 and the non- (The area corresponding to the opening 21) of the light emitting device 10 shown in Fig. FIG. 3 shows that different samples can be loaded into the four regions of the grid 10 using the method and apparatus according to the present invention.

10. Grid
20. Mask
21. The aperture
30. Ultrasonic vibrator

Claims (3)

As a method of loading a plurality of samples onto one TEM observation grid 10,
(A) A mask 20 having one or a plurality of openings 21 having a size less than 1/2 of the effective sub-area of the grid 10 at a predetermined height above a vertically upper portion of one region of the grid 10 placed horizontally Horizontally mounting;
(B) horizontally mounting the transmissive ultrasonic transducer (30) at a predetermined height above a vertical upper portion of the opening (21) of the mask (20) such that the frangible plate faces downward;
(C) loading the sample liquid on the upper surface of the transmissive ultrasonic transducer (30) and operating the transmissive ultrasonic transducer (30);
(D) The transmissive ultrasonic transducer (30) and the mask (20) are exchanged or washed in another region that does not overlap one region of the grid (10), and the steps (A) to Repeating;
Wherein the plurality of samples are loaded on a single TEM observation grid (10).
The method according to claim 1,
Drying the sample solution loaded after the step (C)
Further comprising the step of simultaneously drying all of the sample liquids loaded after the final step. ≪ RTI ID = 0.0 > 8. < / RTI >
A sample loading apparatus for applying a method of loading a sample according to any one of claims 1 to 3,
(A) a grid fixing unit for horizontally mounting the grid (10) and the grid (10);
(B) a mask mounting unit for horizontally moving and vertically moving relative to the grid fixing unit while horizontally fixing the mask 20 and the mask 20;
(C) an ultrasonic transducer mounting part for horizontally moving and vertically moving relative to the grid fixing part while fixing the transmission ultrasonic transducer (30) and the transmission ultrasonic transducer (30);
And a sample loading device for loading the sample.

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