KR20180016064A - Method and apparatus for cleaning a surface of asemiconductor wafer - Google Patents

Abstract

The present invention relates to a method for effectively cleaning a semiconductor wafer. The method comprises the steps of: preparing a wafer; dry-cleaning the wafer; and wet-cleaning the wafer, wherein the wafer is heated in the step of wet-cleaning.

Description

Field of the Invention [0001] The present invention relates to a semiconductor wafer cleaning method and apparatus,

The present disclosure relates generally to a semiconductor wafer cleaning method and apparatus and, more particularly, to a semiconductor wafer cleaning method including both a dry cleaning method and a wet cleaning method, a semiconductor wafer cleaning method including a dry cleaning module and a wet cleaning module, Cleaning method and apparatus.

Herein, the background art relating to the present disclosure is provided, and these are not necessarily meant to be known arts.

Generally, a semiconductor device is manufactured by sequentially or repeatedly performing a plurality of unit processes such as diffusion, deposition, exposure, cleaning, and the like on a wafer. In recent years, as semiconductor pattern density increases, the importance of semiconductor cleaning processes has increased. The semiconductor cleaning process is divided into a dry cleaning method and a wet cleaning method, but a wet cleaning method is mainly used.

1 is a view showing an example of a wet cleaning apparatus described in Korean Patent Laid-Open No. 10-2008-0060935. The reference numerals have been changed for convenience of explanation.

1 includes a cleaning tank 11, a wafer guide 12, a motor rotating shaft 13, and a motor 14. [ The wafer 15 to be cleaned by the wet cleaning apparatus 10 is fixed to the wafer guide 12 by the fixing portions 16 and 17. [ The wafer 15 is cleaned by the chemical solution in the cleaning tank 11. The chemical solution used in the wet scrubber 10 uses various chemical solutions depending on the application. For example, sulfuric acid (H ₂ SO ₄ ) and hydrogen peroxide (H ₂ O ₂ ) are mixed at an appropriate ratio in a surfactant peroxide mixture (SPM).

However, in the case of the wet cleaning method, there has been a problem due to the environmental pollution problem caused by the chemical solution used, the enlargement of the apparatus, and the increase of the maintenance cost. Recently, dry cleaning methods have been attracting much attention.

2 is a view showing an example of a dry cleaning apparatus disclosed in Korean Patent Laid-Open No. 10-2003-0049086. The reference numerals have been changed for convenience of explanation.

2 includes a carrier gas introduction section 21, a plasma generation section 22, a reaction gas introduction section 23, a charge removal section 24, a wafer support section 25, and a process lamp section 26). The wafer 27 to be cleaned is also shown.

 However, the dry cleaning method shows a limit to wafer cleaning. Recently, there is a growing interest in a wet cleaning method using ozone water in order to overcome the limit of cleaning of the dry cleaning method and solve the problem of the wet cleaning method.

Further, since the dry type cleaning apparatus and the wet type cleaning apparatus shown in FIGS. 1 and 2 are separately installed, there is a problem that a space for installing the cleaning apparatus is required.

The present disclosure seeks to provide a semiconductor wafer cleaning method and apparatus using a wet cleaning method using ozone water. Further, there is a need to provide a semiconductor wafer cleaning method and apparatus requiring less space for installing a cleaning device.

This will be described later in the Specification for Implementation of the Invention.

SUMMARY OF THE INVENTION Herein, a general summary of the present disclosure is provided, which should not be construed as limiting the scope of the present disclosure. of its features).

According to one aspect of the present disclosure, there is provided a semiconductor wafer cleaning method comprising: preparing a wafer; There is provided a semiconductor wafer cleaning method characterized by heating a wafer in a wet cleaning step of cleaning the wafer, and a wet cleaning step of cleaning the wafer.

According to another aspect of the present disclosure, there is provided a semiconductor wafer cleaner comprising: a dry cleaning module; And a wet cleaning module located below the dry cleaning module.

This will be described later in the Specification for Implementation of the Invention.

1 is a view showing an example of a wet cleaning apparatus disclosed in Korean Patent Laid-Open No. 10-2008-0060935,
2 is a view showing an example of a dry cleaning apparatus disclosed in Korean Patent Laid-Open No. 10-2003-0049086,
3 is a view showing an example of a semiconductor wafer cleaning method according to the present disclosure;
4 is a simplified view of an example of a semiconductor wafer cleaning apparatus according to the present disclosure;

The present disclosure will now be described in detail with reference to the accompanying drawings.

3 is a view showing an example of a semiconductor wafer cleaning method according to the present disclosure.

Fig. 3 shows a cleaning method of the semiconductor wafer 200. Fig. The wafer 200 is prepared as shown in Fig. 3 (a). The wafer 200 has a constant shape, but is not limited to a certain size. As shown in FIG. 3 (b), the wafer 200 is put into the dry cleaning module 110 to dry-clean the wafer. The dry cleaning module 110 may be configured to etch the photoresist using a plasma 111 using at least one of oxygen (O ₂ ), nitrogen (N ₂ ), argon (Ar), and carbon tetrafluoride (CF ₄ ) ashing. 3 (c), the wafer 200 having undergone the process of FIG. 3 (b) is placed in the wet cleaning module 120 to wet-clean the wafer 200. The wet cleaning module 120 may use ozone water 121 (O ₃ ). Further, the concentration of the ozone water 121 is preferably 30 ppm or more and 200 ppm or less. This is because the concentration of the ozonated water 121 is If the concentration of the ozone water 121 is less than 200 ppm, the flow rate of the ozone water 121 produced by the ozonated water generator is insufficient, Is not well cleaned. The temperature of the ozone water 121 is preferably between 25 캜 and 80 캜. The detergency is lowered at 25 ° C. or lower, and when the temperature is higher than 80 ° C., ozone is recombined with O ₂ at a high rate, resulting in deterioration of cleaning power. The wet cleaning module 120 has an advantage that environmental pollution due to the use of the chemical solution can be drastically reduced by using the ozone water 121 for wet cleaning. However, the ozone water 121 has lower cleaning ability than other chemical products. Therefore, when wet cleaning is performed only with the ozone water 121, the wafer 200 is not cleaned properly. The wet cleaning module 120 includes a pedestal 122 for supporting the wafer 200 and the pedestal 122 is provided with a semiconductor light emitting device 123. [ The semiconductor light emitting element 123 may be provided in the groove of the pedestal 122 so that the semiconductor light emitting element 123 can be sealed so as not to touch the ozonated water 121 when the semiconductor light emitting element 123 is cleaned. have. The semiconductor light emitting device 123 provided on the pedestal 122 emits near ultraviolet rays to the wafer 200. The wafer 200 may pass light having a longer wavelength than that of the near ultraviolet ray, so that the wafer 200 may not be sufficiently heated. For example, when an infrared ray is shot, infrared rays do not pass through the wafer 200 to generate heat. When near-ultraviolet rays are used, near ultraviolet rays can not pass through the wafer 200, and heat is generated in the wafer 200. Therefore, it is preferable that the semiconductor light emitting element 123 emits near ultraviolet rays. The wafer 200 is preferably heated to between 25 ° C and 250 ° C. This is because the wafer 200 is heated while the wafer 200 is being heated, and the deficient cleaning power of the ozone water 121 can be increased. At this time, it is preferable that the wafer 200 is first heated by the near ultraviolet rays and then cleaned with the ozone water 121. The reason for heating the wafer 200 in the state where it is immersed in the ozone water 121 is that it takes a long time for the wafer 200 to be heated and the temperature of the morning water 121 can be increased unexpectedly. At this time, the ozone water 121 can be sprayed from above as shown in FIG. 3 (c), and the wafer 200 and the pedestal 122 can be taken in together with the ozone water 121 to be cleaned.

4 is a simplified view of an example of a semiconductor wafer cleaning apparatus according to the present disclosure;

The semiconductor wafer cleaning apparatus 100 according to the present disclosure includes a dry cleaning module 110 and a wet cleaning module 120. A wet scrubbing module 120 is located below the dry scrubbing module 110. As the wet cleaning module 120 is positioned below the dry cleaning module 110, the movement distance of the wafer is shortened and the size of the horizontal space occupied by the photoresist cleaning apparatus 100 can be greatly reduced. The dry cleaning module 110 cleans the wafer, and the wet cleaning module 120 cleans the wafer.

Various embodiments of the present disclosure will be described below.

(1) A semiconductor wafer cleaning method comprising the steps of: preparing a wafer; Drying the wafer; and wet-cleaning the wafer, wherein the wafer is heated in the wet cleaning step.

(2) In the step of wet-cleaning the wafer, the wafer is provided on the pedestal, and the pedestal is provided with a semiconductor light emitting element, and the semiconductor light emitting element is used to heat the wafer.

(3) The semiconductor wafer cleaning method, wherein the semiconductor light emitting element emits near-ultraviolet light.

(4) A semiconductor wafer cleaning method characterized in that, when heating a wafer, the semiconductor light emitting element heats the wafer to between 25 ° C and 250 ° C.

(5) wet-cleaning the wafer, wherein ozone water is used.

(6) The semiconductor wafer cleaning method according to any one of (1) to (5), wherein the concentration of the ozonated water is 30 ppm or more and 200 ppm or less.

(7) The method of cleaning semiconductor wafers according to claim 1, wherein dry cleaning is performed using plasma using at least one of oxygen, nitrogen, argon, and carbon tetrafluoride.

(8) A semiconductor wafer cleaning apparatus comprising: a dry cleaning module; And a wet cleaning module located below the dry cleaning module.

(9) A semiconductor wafer cleaning apparatus characterized by using ozonated water in a wet cleaning module.

(10) The semiconductor wafer cleaning apparatus according to any of the preceding claims, wherein the wet cleaning module includes a pedestal supporting the wafer, and the pedestal is provided with a semiconductor light emitting element.

(11) The semiconductor wafer cleaning apparatus according to claim 1, wherein the semiconductor light emitting element provided in the pedestal emits near-ultraviolet light.

(12) The semiconductor wafer cleaning apparatus according to any one of the preceding claims, wherein the semiconductor light emitting device provided on the pedestal heats the wafer to a temperature between 25 ° C and 250 ° C.

(13) In the wet cleaning module, ozone water is used, the wafer of the wet cleaning module is positioned on the pedestal, the pedestal is provided with a semiconductor light emitting element, and the semiconductor light emitting element provided on the pedestal emits near- Wafer cleaning apparatus.

According to the present disclosure, there is provided a semiconductor wafer cleaning method and apparatus for effectively cleaning a wafer.

Claims (13)

In the semiconductor wafer cleaning method,
Preparing a wafer;
Dry-cleaning the wafer,
Wet cleaning the wafer,
Wet cleaning the wafer,
And the wafer is heated. The method according to claim 1,
Wet cleaning the wafer,
The wafer is provided on the pedestal,
Wherein the pedestal is provided with a semiconductor light emitting element, and the semiconductor light emitting element is used to heat the wafer. The method of claim 2,
Wherein the semiconductor light emitting element emits near ultraviolet light. The method of claim 3,
Wherein when the wafer is heated, the semiconductor light emitting element heats the wafer to between 25 ° C and 250 ° C. The method according to claim 1,
Wet cleaning the wafer,
Wherein the ozone water is used as the cleaning liquid. The method of claim 5,
Wherein the concentration of ozone water is 30 ppm or more and 200 ppm or less. The method according to claim 1,
Dry cleaning the wafer;
Wherein at least one of oxygen, nitrogen, argon, and carbon tetrafluoride is used for dry cleaning using a plasma. In a semiconductor wafer cleaning apparatus,
Dry cleaning module; And
And a wet cleaning module located below the dry cleaning module. The method of claim 8,
Wherein the wet cleaning module uses ozonated water. The method of claim 8,
The wet cleaning module includes a pedestal for supporting the wafer,
And a semiconductor light emitting device is provided on the pedestal. The method of claim 10,
Wherein the semiconductor light emitting element provided on the pedestal emits near-ultraviolet light. The method of claim 8,
Wherein the semiconductor light emitting device provided on the pedestal heats the wafer at a temperature between 25 ° C and 250 ° C. The method of claim 8,
In the wet cleaning module, ozonated water is used,
The wafer of the wet cleaning module is positioned above the pedestal,
A semiconductor light emitting device is provided on the pedestal,
Wherein the semiconductor light emitting element provided on the pedestal emits near-ultraviolet light.

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