KR20120005576A - Uv cleaner of substrate for photomask blank and cleanning method - Google Patents

Abstract

PURPOSE: An ultraviolet cleaning apparatus and method of a transparent substrate for a photo mask blank are provided to prevent contamination of the ultraviolet cleaning apparatus and environmental contamination by eliminating organic compounds which remain on the transparent substrate without a chemical liquid medicine. CONSTITUTION: An ultraviolet lamp(11) radiates ultra-violet rays having 184nm and 254nm peak wavelengths at the same time. The ultraviolet lamp radiates ultra-violet rays having the 254nm peak wavelength with intensity higher than the ultra-violet rays having the 184nm peak wavelength. A transparent substrate(20) is fixed within an ultraviolet cleaning apparatus. The ultraviolet lamp is transferred to a direction which is parallel to the transparent substrate in order to scan all surfaces of the transparent substrate.

Description

UV CLEANER OF SUBSTRATE FOR PHOTOMASK BLANK AND CLEANNING METHOD}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ultraviolet cleaning device for a transparent substrate for a photomask blank and a method for cleaning the transparent substrate, and in particular, an ultraviolet cleaning device for a transparent substrate for a photomask blank having a side of 300 mm or more and a method for cleaning the transparent substrate. It is about.

The transparent substrate for the photomask blank is subjected to a cleaning process using a chemical solution such as ammonia water in order to remove organic matter on the surface before forming a thin film such as a metal film. The transparent substrate which has undergone this cleaning process must be rinsed to remove residues such as chemicals.

A photomask blank is manufactured by depositing at least one metal film on the main surface of the cleaned transparent substrate and coating a photoresist film for patterning the metal film thereon.

However, the cleaning process using such chemical liquids requires a rinse treatment, thereby increasing manufacturing cost and manufacturing time. In addition, when the chemical is left without being completely removed from the rinse, the adhesion of the metal film to the transparent substrate is low, causing a problem that some of the metal film falls off the transparent substrate and is lost. In addition, the problems of pollution and environmental pollution in the cleaning device by chemicals are also serious.

In accordance with the problem of cleaning using such a chemical solution, a method of removing organic substances by irradiating ultraviolet to a transparent substrate without using a conventional chemical solution has been proposed. Since the cleaning process of the transparent substrate using ultraviolet light does not use a chemical solution, it is unnecessary to rinse the process, and since there is no chemical liquid discharged, environmental pollution can be prevented.

By the way, the ultraviolet-ray lamp which radiates the ultraviolet-ray of 172 nm wavelength is mainly used for the ultraviolet-ray cleaning apparatus of the transparent substrate using the ultraviolet-ray conventionally.

The present inventors paid attention to the cleaning effect according to the wavelength of ultraviolet rays for effective organic matter removal, and as a result, it was found through experiments that the effect of removing organic matter according to the wavelength is different. In addition, it has been found that the cleaning effect also varies depending on the intensity ratio of the wavelength when using a plurality of ultraviolet rays.

Meanwhile, as shown in FIG. 1, the conventional ultraviolet cleaner 1 has a structure in which the transparent substrate 3 moves horizontally while being irradiated with ultraviolet rays while the ultraviolet lamp 2 is fixed in the cleaner 1. It is. This structure requires a space for the transparent substrate 3 to be carried in and out of the ultraviolet cleaner 1, so that the size of the ultraviolet cleaner 1 should be at least twice as large as that of the transparent substrate 3. .

In recent years, a photomask for manufacturing a flat panel display is increasingly larger than 1500 mm on one side, and a UV cleaning device configured to move a transparent substrate as in the prior art should have a size of 3000 mm or more.

Accordingly, it is a first object of the present invention to provide an ultraviolet cleaning device and a cleaning method using the wavelength of ultraviolet rays which can most effectively remove the organic substances remaining on the surface of the transparent substrate.

In addition, another object of the present invention is to provide an ultraviolet cleaning device that can easily clean ultraviolet rays of a large sized substrate having one side of 300 mm or more without increasing the size of the cleaning apparatus as compared with the prior art.

In order to solve the above problems, the present invention has the following configuration.

[Configuration 1]

An ultraviolet cleaning apparatus for cleaning the surface of the transparent substrate by irradiating ultraviolet rays to the transparent substrate for the photomask blank, which simultaneously emits ultraviolet rays having a center wavelength of 184 nm and 254 nm, respectively, and has an intensity of ultraviolet ray having a center wavelength of 184 nm. An ultraviolet cleaning device for a transparent substrate for a photomask blank, characterized by having an ultraviolet lamp which emits a higher intensity of ultraviolet rays having a center wavelength of 254 nm.

[Configuration 2]

In the configuration 1, the ultraviolet lamp is for a photomask blank, characterized in that the ratio of the intensity of the ultraviolet light having a center wavelength of 184nm and the intensity of the ultraviolet light having a center wavelength of 254nm is 1: 2 to 1:10. Ultraviolet light cleaning device of transparent substrate.

[Configuration 3]

In the configuration 1, the transparent substrate is fixed in the ultraviolet cleaning device, and the ultraviolet lamp is moved in the direction parallel to the transparent substrate so that the ultraviolet lamp scans the entire surface of the transparent substrate. Ultraviolet light cleaning apparatus of transparent substrate for mask blanks.

[Configuration 4]

In the configuration 3, the ultraviolet lamp is a UV cleaning device for a transparent substrate for a photomask blank, characterized in that provided in a pair symmetrically up and down with respect to the transparent substrate to simultaneously scan the main surface and the back surface of the transparent substrate. .

[Configuration 5]

The ultraviolet cleaning device of the transparent substrate for photomask blanks of the structure 3 or 4 WHEREIN: The said ultraviolet lamp scans the whole surface of the said transparent substrate, moving at the speed of 1 mm / sec-100 mm / sec. .

[Configuration 6]

In the structure 1, the said ultraviolet cleaning device forms the sealed inner space which accommodates the said transparent substrate, and exhausts air from the sealed inner space to the exhaust pressure of 100 Pa-200 Pa, The transparent substrate for photomask blanks characterized by the above-mentioned. UV cleaning device.

[Configuration 7]

In the structure 1, the said transparent substrate is 300 mm or more in one side, and the said ultraviolet lamp is 500 mm or more in length, The ultraviolet cleaning apparatus of the transparent substrate for photomask blanks characterized by the above-mentioned.

[Configuration 8]

The ultraviolet-ray cleaning apparatus of the transparent substrate for photomask blanks of the structure 1 WHEREIN: The one or more layer of metal film is formed in at least one surface of the said transparent substrate.

[Configuration 9]

An ultraviolet cleaning method for cleaning a surface by irradiating ultraviolet rays to a transparent substrate for a photomask blank, using an ultraviolet lamp that emits ultraviolet rays having a central wavelength of 184 nm and 254 nm at an intensity of 1: 2 to 1:10. And a step of irradiating ultraviolet rays to the transparent substrate, wherein the step of irradiating the ultraviolet rays comprises irradiating ultraviolet rays to the transparent substrate by moving the ultraviolet lamp in a state where the transparent substrate is fixed. UV cleaning method.

First, the ultraviolet cleaner of the present invention can remove organic substances remaining on the surface of the transparent substrate without using a chemical solution, so that the cleaning apparatus does not cause pollution and environmental pollution.

Second, when the transparent substrate is cleaned using the ultraviolet cleaning device of the present invention, since the rinse processing step is unnecessary, the cost and time for manufacturing the photomask blank can be reduced.

Third, the ultraviolet cleaning device of the present invention can reduce the size of the cleaning device even in the case of a transparent substrate having a large size of 300 mm or more on one side, and has a space margin.

Fourth, since the ultraviolet cleaning device of the present invention uses an ultraviolet lamp that emits a wavelength capable of exhibiting an optimal cleaning effect, it is possible to effectively remove the organic material of the transparent substrate.

1 is a schematic cross-sectional view of a conventional ultraviolet cleaning device.
2 is a schematic cross-sectional view of the ultraviolet cleaning device of the present invention.
3 is a perspective view illustrating a form in which an ultraviolet lamp moves according to the present invention.

The present invention relates to an ultraviolet cleaning device for a transparent substrate for a photomask blank and a method for cleaning the transparent substrate. Hereinafter, the ultraviolet cleaning device of the present invention will be described with reference to the accompanying drawings.

Figure 2 is a schematic cross-sectional view of the ultraviolet cleaning device of the present invention, Figure 3 is a schematic view showing a form of the ultraviolet lamp is moved in the ultraviolet cleaning device of the present invention.

In the present invention, the transparent substrate 20 is not limited to its size, but it is preferable to have a large size with one side of 300 mm or more, and the larger the size of the transparent substrate 20, the more significant the effect is.

According to the present invention, when one or more layers of metal films are formed on the transparent substrate 20 from which organic substances have been removed from the surface, and a photoresist film for patterning the metal films is coated on the metal films, the photomask blank is manufactured.

The metal film may be a light shielding film, an antireflection film, a semi-transmissive film, an etch stop film, or the like, and is formed into a thin film by reactive sputtering using a metal target.

Patterning a metal film from the photomask blank results in a photomask.

In the present invention, the photomask blank is used to manufacture a flat panel display.

The ultraviolet cleaning device 10 of the present invention has an ultraviolet lamp 11 that emits ultraviolet rays having a central wavelength of approximately 184 nm and 254 nm. Here, the center wavelengths of approximately 184 nm and 254 nm mean a wavelength range of 184 mm 2 nm and a wavelength range of 254 nm 2 nm.

The ultraviolet lamp 11 according to the present invention emits ultraviolet rays of 254 nm wavelength with greater intensity than ultraviolet rays of 184 nm wavelength. In particular, the ultraviolet lamp 11 according to the present invention is most preferably to remove the organic material of the transparent substrate 20 is a ratio of the intensity of the 184nm wavelength and 254nm wavelength 1: 2 to 1:10. Low pressure mercury lamps include ultraviolet light sources that emit ultraviolet rays of 184 nm and 254 nm wavelengths.

Ultraviolet rays emitted from the ultraviolet lamps 11 excite oxygen and oxidize or vaporize organic substances on the surface of the transparent substrate 20 by the generated ozone or oxygen to remove them from the surface of the transparent substrate 20.

The ultraviolet lamp 11 is made of quartz glass having a purity of 90% or more. The ultraviolet lamps 11 are preferably provided on the upper and lower portions of the transparent substrate 20 one by one. However, it is not necessary to be formed in two, it may be provided on either of the upper or lower portion of the transparent substrate 20, and after washing one side, the transparent substrate 20 may be turned over to clean the opposite side, or The ultraviolet lamp 11 may be configured to rotate after irradiating ultraviolet rays on one side and irradiating ultraviolet rays on the opposite side.

The ultraviolet lamp 11 may include a reflecting plate 12 opposite to the transparent substrate 20 so that ultraviolet rays are concentrated and irradiated toward the transparent substrate 20.

In the ultraviolet cleaning device 10 of the present invention, the UV lamp 11 moves along the surface of the transparent substrate 20 while the transparent substrate 20 is fixed, and scans and cleans the entire surface of the transparent substrate 20. do. Therefore, it is preferable that the length of the ultraviolet lamp 11 is larger than the length of one side of the transparent substrate 20, and it is preferable that it is especially 500 mm or more.

The ultraviolet cleaning device 10 of the present invention does not occupy much space because the transparent substrate 20 does not move and the ultraviolet lamp 11 moves. For example, if the length of one side of the transparent substrate 20 is 1500mm, the conventional ultraviolet cleaner should have a size larger than 3000mm, which is twice the size of the transparent substrate 20, the ultraviolet cleaner 10 of the present invention It may be slightly larger than 1500 mm to the extent that the transparent substrate 20 can be accommodated.

The ultraviolet cleaning device 10 of the present invention does not require a large number of ultraviolet lamps 11, but only one at the top of the transparent substrate 20 and / or one at the bottom of the transparent substrate 20 do. Two may be provided on the upper portion of the transparent substrate 20, and two may be irradiated with ultraviolet rays at the same time, or only one is irradiated and the other may be reserved for reserve.

The ultraviolet lamp 11 can move at a speed of 1 mm / sec to 100 mm / sec, particularly preferably at 1 mm / sec to 20 mm / sec. The moving speed of the ultraviolet lamp 11 can be adjusted according to the number of scans. That is, the ultraviolet ray lamp 11 may be scanned several times by increasing the moving speed or scanning only once instead of slowing the moving speed.

The ultraviolet cleaning device 10 seals the inside after the transparent substrate 20 is mounted and fixed therein. It is preferable to exhaust internal air at an exhaust pressure of 100 Pa to 200 Pa during ultraviolet irradiation. If the exhaust pressure is less than 100 Pa, the exhaust volume is small, and the particles separated from the transparent substrate 20 are reattached when irradiated with ultraviolet rays, and the surface is contaminated. If the exhaust pressure exceeds 200 Pa, ozone is too small inside, so that the transparent substrate 20 Not effective in removing organic matter.

The ultraviolet cleaner 10 of the present invention is for removing organic substances by irradiating ultraviolet rays to the surface of the transparent substrate 20, but may be used to remove organic substances generated on the surface of the metal film. That is, a metal film is formed on the transparent substrate 20 from which the organic material has been removed through the ultraviolet cleaner 10, and irradiated with ultraviolet rays to remove organic substances that may be present on the surface of the metal film through the ultraviolet cleaner 10. can do.

Hereinafter, the present invention will be described in detail through experimental examples, but the following experimental examples are only used for the purpose of illustration and description of the present invention, and are used to limit the scope of the present invention as defined in the meaning or claims. It is not.

Table 1 below shows the contact angle of the transparent substrate after ultraviolet irradiation according to the intensity of the ultraviolet wavelength emitted from the ultraviolet lamp. The contact angle of the transparent substrate means that the smaller the value, the less organic matter is on the surface.

172 nm 184 nm 254 nm Contact Angle [°] Experimental Example 1 One 0 0 16.8 Experimental Example 2 0 One One 12.5 Experimental Example 3 0 One 2 3.6 Experimental Example 4 0 One 5 3.7 Experimental Example 5 0 One 10 4.5 Experimental Example 6 0 2 One 13.7 Experimental Example 7 0 5 One 11.8 Experimental Example 8 0 10 One 11.4

From the above Table 1, when ultraviolet rays having wavelengths of 184 nm and 254 nm were irradiated (Experimental Examples 2 to 8) than when irradiating ultraviolet rays having a wavelength of 172 nm (Experimental Example 1), an organic substance was added to the surface of the transparent substrate. You can see that a lot has been removed.

In particular, it can be seen that the contact angle is the smallest when the ratio of the intensities of the ultraviolet rays having the wavelengths of 184 nm and 254 nm is 1: 2 to 1:10, and thus the organic matter is most effectively removed from the surface of the transparent substrate.

Table 2 below shows the contact angle of the transparent substrate after ultraviolet irradiation in accordance with the exhaust pressure in the ultraviolet cleaner.

Exhaust Pressure [Pa] Less than 100 100-200 More than 200 Contact Angle [°] 7.8 5.5 13.9

As can be seen from Table 2, when the exhaust pressure in the ultraviolet cleaning device is 100 ~ 200Pa it can be seen that the most organic material on the surface of the transparent substrate is removed.

10: UV cleaner
11: UV lamp
12: reflector
20: transparent substrate

Claims (9)

An ultraviolet cleaning device for cleaning a surface of the transparent substrate by irradiating ultraviolet rays to the transparent substrate for a photomask blank,
Characterized in that it has an ultraviolet lamp which simultaneously emits ultraviolet rays having a center wavelength of 184 nm and 254 nm, respectively, and which radiates an intensity of ultraviolet ray having a center wavelength of 254 nm with a greater intensity than that of the central wavelength of 184 nm. Ultraviolet light cleaning apparatus of transparent substrate for photomask blanks.
The method of claim 1,
The ultraviolet lamp is a UV cleaning of the transparent substrate for a photomask blank, characterized in that the ratio of the intensity of the ultraviolet ray having a center wavelength of 184nm and the intensity of the ultraviolet ray having a center wavelength of 254nm is 1: 2 to 1:10. Device.
The method of claim 1,
The transparent substrate is fixed in the ultraviolet cleaner,
And moving the ultraviolet lamp in a direction parallel to the transparent substrate so that the ultraviolet lamp scans the entire surface of the transparent substrate.
The method of claim 3,
The ultraviolet lamp is a UV cleaning device for a transparent substrate for a photomask blank, characterized in that provided in a pair symmetrically up and down with respect to the transparent substrate, so as to simultaneously scan the main surface and the back surface of the transparent substrate.
The method according to claim 3 or 4,
The ultraviolet lamp is a UV cleaning device for a transparent substrate for a photomask blank, characterized in that for scanning the entire surface of the transparent substrate while moving at a speed of 1mm / sec to 100mm / sec.
The method of claim 1,
The ultraviolet light cleaning device forms a sealed inner space for accommodating the transparent substrate, and exhausts air from the closed inner space at an exhaust pressure of 100 Pa to 200 Pa. The ultraviolet cleaning device for the transparent substrate for the photomask blank.
The method of claim 1,
The said transparent substrate is 300 mm or more in one side, and the said ultraviolet lamp is 500 mm or more in length, The ultraviolet cleaning device of the transparent substrate for photomask blanks characterized by the above-mentioned.
The method of claim 1,
An ultraviolet cleaning device for a transparent substrate for a photomask blank, wherein at least one metal film is formed on at least one surface of the transparent substrate.
An ultraviolet cleaning method for cleaning a surface by irradiating ultraviolet rays to a transparent substrate for a photomask blank,
Having a process of irradiating ultraviolet rays to the transparent substrate using an ultraviolet lamp that emits ultraviolet rays having a central wavelength of 184 nm and 254 nm at an intensity of 1: 2 to 1:10,
In the step of irradiating the ultraviolet rays, the ultraviolet ray cleaning method of the transparent substrate for a photomask blank, wherein the ultraviolet ray is irradiated on the transparent substrate by moving the ultraviolet ray lamp while the transparent substrate is fixed.

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