KR100913005B1 - Method for forming a mask pattern - Google Patents

Abstract

The present invention relates to a method of forming a mask pattern, the method comprising: forming a negative photoresist film on a substrate, exposing a portion of the negative photoresist film, and developing an exposed negative photoresist film Forming a negative tone working photoresist film, forming a positive photoresist film on the substrate including the negative tone working photoresist film, and the negative tone working photoresist film Baking the substrate such that hydrogen gas (H +) is diffused into the positive photoresist film at the boundary, and developing a positive photoresist film in which the hydrogen gas (H +) is diffused to produce a positive tone working photoresist (positive tone) working photo resist) It includes.

Mask pattern, chemically amplified resist, negative photoresist, positive photoresist, pattern pitch

Description

Method for forming a mask pattern

1A to 1F are cross-sectional views illustrating a method of forming a mask pattern according to an exemplary embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

100: substrate 110: bottom diffuse reflection film

120: negative photoresist film 120a: exposed negative photoresist film

120b: negative tone working photoresist film 120c: first space

130: positive photoresist film

130a: positive photoresist film in which hydrogen gas is diffused

     130b: positive tone working photoresist film 130c: second space

140: mask pattern

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of forming a mask pattern, and in particular, a pattern pitch due to exposure and development according to a combination of a chemically amplified negative photoresist and a positive photoresist. It relates to a method of forming a mask pattern (mask pattern) that can reduce the.

As semiconductor products become smaller and more integrated, there is a growing interest in patterning techniques for forming patterns to improve new functions of devices. Current high integration patterning technology has been developed as a core technology of semiconductor manufacturing, and photolithography process is mainly used. In this photolithography process, a photoresist film is formed by applying a photoresist (PR), which is a chemical sensitive to light irradiation, and then a mask pattern is formed by exposing and developing the photoresist film. Patterning is performed by selectively etching the lower layer using the formed mask pattern.

In general, the process capability limit (resolution) of the photoresist film exposure equipment used for forming the pattern is half the half of the pattern pitch defined by the sum of the line pattern and the space. Pitch).

The resolution of the exposure equipment developed to date is 45 nm based on the half pitch, and in order to increase the net die, a reduction in the pattern pitch or the half pitch is required.

The present invention can form a mask pattern whose pattern pitch is 1/2 times the resolution of exposure equipment by exposure and development according to a combination of a chemically amplified negative photoresist and a positive photoresist.

In order to achieve the above object, a mask pattern forming method according to the present invention forms a negative photoresist film on a substrate. A part of the negative photoresist film is exposed. The negative photoresist film is developed to form a negative tone working photoresist film. A positive photoresist film is formed on the substrate including the negative tone working photoresist film. The substrate is baked such that hydrogen gas is diffused into the positive photoresist film at the negative tone working photoresist film boundary. The positive photoresist film is developed to form a positive tone working photoresist film.

The method may further include forming a bottom anti-reflective coating (BARC) film before the forming of the negative photoresist film. Each of the negative photoresist film and the positive photoresist film is formed of a chemically amplified photoresist.

The sum of the spaces between the negative tone working photoresist film and the negative tone working photoresist film has a pattern pitch that is twice the resolution of the exposure equipment. The positive tone working photoresist film is formed thicker than the negative tone working photoresist film. In the positive photoresist film, the thickness of the hydrogen gas diffused on the side of the negative tone working photoresist film is thinner than that of the upper part.

The hard mask pattern removes the positive photoresist film including the diffused hydrogen gas on the side of the negative tone working photoresist film, and adjusts the pattern pitch to be the target interval. The negative tone working photoresist film and the positive tone working photoresist film are alternately formed by being spaced apart by a space.

The sum of the negative tone working photoresist film or the positive tone working photoresist film and the space has the same pattern pitch as the resolution of the exposure equipment.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. However, the embodiments of the present invention can be modified in many different forms, and the scope of the present invention should not be construed as being limited by the embodiments described below, and those skilled in the art It is preferred that the present invention be interpreted as being provided to more fully explain the present invention.

1A to 1F are cross-sectional views illustrating a method of forming a mask pattern according to an exemplary embodiment of the present invention.

Referring to FIG. 1A, a bottom anti-reflective coating (BARC) film 110 is formed on the substrate 100. The BARC film 110 is formed to control the reflected light of the exposure source reflected from the surface of the substrate 100, and is not required to be formed.

A negative photoresist film 120 is formed on the BARC film 110. Preferably, the negative photoresist film 120 is formed of a chemically amplified resist.

Chemically amplified resist refers to a resist having a quantum yield of more than 100%, and is based on Resin and Photo Acid Generator (PAG) to increase contrast and control solubility. ) May be used. Here, as a chemically amplified resist, a part of polyhydroxystyrene (PHST) resin is substituted with a t-buthoxycarbonyl (t-BOC) group by an appropriate ratio (n / m) to develop a developer. Matrix resin with controlled solubility in In this case, the negative photoresist film 120 may be formed by spin coating.

Referring to FIG. 1B, a portion of the negative photoresist film 120 is exposed. Here, ArF or KrF may be used as the exposure source. As such, the acid formed by exposure reduces Ot-BOC to OH to be dissolved in an alkaline solution. At this time, hydrogen gas (H +) from the by-product deprotection the surrounding t-BOC again. Used to amplify. As a result, an exposed negative photoresist film 120a containing hydrogen gas (H +) is formed.

In particular, the present invention controls the pattern pitch by removing the thickness of the hydrogen gas (H +) diffused into the positive photoresist film (not shown) of the sidewall of the negative photoresist film 120a exposed through a subsequent baking process. This is controlled by adjusting the exposure amount to adjust the thickness of the hydrogen gas (H +) diffused into the positive photoresist film.

Referring to FIG. 1C, the exposed negative photoresist film 120a is developed. The hydrogen gas (H +) formed by exposure causes a crosslinking reaction with the photoresist, so that the exposed photoresist film 120a remains in the developer without being dissolved. As a result, a negative tone working photoresist layer 120b, which is a photoresist in which the exposed portion after exposure is left as a pattern, is formed.

The sum of the first spaces 120c between the negative tone working photoresist film 120b and the negative tone working photoresist film 120b is defined as the pattern pitch P1 and is twice the resolution of the exposure equipment.

Referring to FIG. 1D, a positive photoresist film 130 is formed on the substrate 100 including the negative tone working photoresist film 120b. Preferably, the positive photoresist layer 130 is formed of a chemically amplified resist, and in this case, may be formed by spin coating.

In this case, the thickness of the positive photoresist film 130 formed on the negative tone working photoresist film 120b is determined by the hydrogen gas (H +) on the side of the negative tone working photoresist film 120b through a subsequent baking process. It is formed to be thinner than the thickness removed due to the diffusion of the developer solution can penetrate under the positive photoresist film (not shown) diffusion of hydrogen gas (H +).

Referring to FIG. 1E, the substrate 100 on which the positive photoresist film 130 is formed is baked. As a result, hydrogen gas H + is diffused by a predetermined thickness on the entire surface of the negative tone working photoresist film 120b to form a positive photoresist film 130a in which hydrogen gas H + is diffused. In this case, the positive photoresist film 130a in which the hydrogen gas H + is diffused is formed to have a thickness greater than that of the negative tone working photoresist film 120b.

Referring to FIG. 1F, only the positive photoresist film 130 in which hydrogen gas H + is diffused is selectively developed. In this case, the positive photoresist film 130a in which the hydrogen gas (H +) is diffused is removed by dissolving hydrogen gas (H +) in the developing solution due to decomposition reaction with the photoresist. As a result, a positive tone working photoresist layer 130b is formed.

As a result, the mask pattern (the negative tone working photoresist film 120b and the positive tone working photoresist film 130b formed thicker than the negative tone working photoresist film 120b are alternately repeated by being spaced apart by the second space 130c). 140) is completed. Herein, since the positive tone working photoresist film 130b is formed between the negative tone working photoresist film 120b, the interval of the second space 130c is more positive than the first space 120c of FIG. 1c. The thickness of the film 130b and the second space 130c is narrowed.

As described above, the mask pattern 140 may include a negative tone working photoresist film 120b or a positive tone working photoresist film 130b, a negative tone working photoresist film 120b, and a positive tone working photoresist film 130b. It has a pattern pitch P2 defined as the sum of the second spaces 130c therebetween, which becomes the target interval. Therefore, the pattern pitch P2 of the mask pattern 140 according to the present invention is 1/2 times smaller than the pattern pitch P1 formed by exposure and development using only the negative photoresist film 120. That is, the mask pattern 140 according to the present invention may implement a pattern pitch of the same interval as the resolution of the exposure equipment.

The mask pattern 140 formed as described above is used as a hard mask for forming an actual pattern, such as a gate electrode or a bit line, in a semiconductor device process, thereby reducing the pattern pitch to form a net die. Can be increased.

Although the present invention has been described with respect to the preferred embodiment as described above, the present invention is not limited to this, and those skilled in the art to which the present invention pertains the claims and the detailed description of the invention and attached It is possible to carry out various modifications within the scope of the drawings and this also belongs to the scope of the present invention.

According to the present invention, a mask pattern having a pattern pitch reduced by 1/2 times as compared with the case of using only one type of photoresist film may be formed by exposure and development by a combination of a chemically amplified negative photoresist and a positive photoresist.

The present invention can increase the net die by using a mask pattern with a reduced pattern pitch in the manufacturing process of the semiconductor device.

Claims (9)

Forming a negative photoresist film on the substrate; Exposing a portion of the negative photoresist film; Developing the exposed negative photoresist film to form a negative tone working photoresist film; Forming a positive photoresist film on the substrate including the negative tone working photoresist film; Baking the substrate such that hydrogen gas is diffused into the positive photoresist film at the boundary of the negative tone working photoresist film; And And developing a positive photoresist film in which the hydrogen gas is diffused to form a positive tone working photoresist film. The method of claim 1, And forming a bottom antireflection film before the forming of the negative photoresist film. The method of claim 1, And each of the negative photoresist film and the positive photoresist film is formed of a chemically amplified photoresist. The method of claim 1, And the sum of the spaces between the negative tone working photoresist film and the negative tone working photoresist film has a pitch that is twice the resolution of exposure equipment. The method of claim 1, And the positive tone working photoresist film is formed thicker than the negative tone working photoresist film. The method of claim 1, The positive photoresist film is a mask pattern forming method wherein the thickness of the hydrogen gas diffused to the side of the negative tone working photoresist film is formed thinner than the top. The method of claim 1, And removing the positive photoresist film including the diffused hydrogen gas at the side of the negative tone working photoresist film to adjust the pattern pitch to a target interval. The method of claim 1, And the negative tone working photoresist film and the positive tone working photoresist film are spaced apart by a space and alternately formed. The method of claim 8, And the sum of the negative tone working photoresist film or the positive tone working photoresist film and the space has the same pattern pitch as the resolution of the exposure equipment.

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