KR100221585B1 - Forming method for via hole of semiconductor device - Google Patents

Abstract

The present invention provides a method of forming a via hole in a semiconductor device, including a main etching step of forming a thick polymer when forming a via hole, and an over etching step of removing a polymer foot and removing a metallic foot by increasing an etching ratio of titanium nitride. It is possible to improve the yield of the device by eliminating the foot phenomenon generated on the sidewall of the via hole by dividing.

Description

Via hole formation method of semiconductor device

1A and 1B are cross-sectional views of devices for describing via holes in a conventional semiconductor device.

2A through 2C are cross-sectional views of a device for explaining a method of forming a via hole in a semiconductor device according to the present invention.

* Explanation of symbols on the main parts of the drawings

1 and 11: silicon substrate 2 and 12: aluminum pattern

3 and 13: titanium nitride layer 4 and 14: first interlayer insulating film

5 and 15: SOG film 6 and 16: Second interlayer insulating film

7a, 7b and 17: polymer 8 and 18: photoresist pattern

10 and 20: Via Hole A: Boeing phenomenon

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of forming a via hole of a semiconductor device. In particular, a via hole of a semiconductor device capable of preventing a bowing phenomenon or a foot caused by a polymer of SOG film generated when a via hole is formed for connection between multilayer metal interconnections. It relates to a forming method.

In general, as semiconductor devices are highly integrated, metal wirings have a multilayer structure, and contact holes or line widths are reduced to 0.35 μm or less. Existing equipment is difficult to implement such a contact hole or line width, new equipment is being developed, and the representative HDP (High Density Plasma) etcher. However, this equipment uses more than 1000 times more plasma than the existing equipment, which causes serious boeing on a soft SOG film compared to other films. That is, as shown in FIG. 1A, the titanium nitride layer 3, the first interlayer insulating film 4, the SOG film 5, and the second film are formed on the silicon substrate 1 on which the aluminum pattern 2 is formed. After the interlayer insulating film 6 is formed sequentially, the photoresist pattern 8 is formed on the second interlayer insulating film 6, and the via hole 10 in which the thin polymer 7A is formed to expose the aluminum pattern 2 is formed. The SOG film 5 exposed when formed generates a bowing phenomenon (A). Therefore, in order to prevent such a phenomenon, when the via hole 10 is formed, the polymer generated using the mixed gas of C ₂ F ₆ and CHF ₃ adheres thickly to the side wall of the via hole 10 so that the SOG film 5 is boeing phenomenon (A). ). That is, as shown in FIG. 1B, the titanium nitride layer 3, the first interlayer insulating film 4, the SOG film 5, and the second interlayer insulating film are formed on the silicon substrate 1 on which the aluminum pattern 2 is formed. (6) are sequentially formed, and after the photoresist pattern 8 is formed on the second interlayer insulating film 6, a via hole 10 in which a thick polymer 7B is formed to expose the aluminum pattern 2 is formed. At this time, a thick polymer 7B is formed on the sidewall of the via hole 10 so that the bowing phenomenon A of the SOG film 5 can be suppressed, but the aluminum pattern 2 is not completely removed. Because of this etching, the foot phenomenon caused by this causes not only CD deviation but also poor contact between metal layers, thereby degrading device characteristics.

Therefore, the present invention solves the above problems by dividing the main etching step to form a thick polymer when the via hole is formed, and the over etching step to remove the metallic foot by increasing the etching ratio of titanium nitride while removing the polymer. It is an object of the present invention to provide a method for forming a via hole of a semiconductor device.

In the method of forming a via hole of the present invention for achieving the above object, a titanium nitride layer, a first interlayer insulating film, an SOG film, and a second interlayer insulating film are sequentially formed on a silicon substrate on which an aluminum pattern is formed. Forming a photoresist pattern on the substrate, performing a main etching process to expose the titanium nitride layer from the step, forming a via hole having a thick polymer, and performing an overetching process to expose the aluminum pattern from the step And forming a complete via hole.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

2A through 2C are cross-sectional views illustrating a method of forming a via hole of a semiconductor device according to the present invention, and FIG. 2A illustrates a titanium nitride layer 13 and a second layer on a silicon substrate 11 on which an aluminum pattern 12 is formed. The state where the photosensitive film pattern 18 was formed on the 2nd interlayer insulation film 16 after forming the 1st interlayer insulation film 14, the SOG film 15, and the 2nd interlayer insulation film 16 sequentially is shown.

FIG. 2B illustrates a state in which the via hole 20 having a thick polymer 17 is formed by performing a main etching process to expose the titanium nitride layer 13. The main etching process includes source power of 2500 to 3100W, bias power of 500 to 900W, C ₂ F ₆ of 10 to 50 sccm, CHF ₃ of 20 to 60 sccm and argon (Ar) gas of 80 to 160 sccm under pressure conditions of 5 to 15 mTorr. Proceed by supplying In the main etching process under such a condition, the second interlayer insulating layer 16, the SOG film 15, and the first interlayer insulating layer are sequentially etched while the etching selectivity of the titanium nitride layer 13 is lowered. In this case, a thick polymer 17 is formed on the sidewall of the via hole 20.

FIG. 2C illustrates a state in which a complete via hole 20 is formed by performing an overetch process to expose the aluminum pattern 12. The overetch process is performed by supplying 10 to 50 sccm of C ₂ F ₆ and 50 to 150 sccm of oxygen (O ₂ ) gas under a source power of 2500 to 3100 W, a bias power of 500 to 900 W, and a pressure of 5 to 15 mTorr. During the over-etching process under such conditions, the titanium nitride layer 13 is etched while the polymer 17 is removed while the etching selectivity of the titanium nitride layer 13 is increased. The over-etching process may be used by adding CHF ₃ gas to C ₂ F ₆ and oxygen (O ₂ ) gas.

As described above, according to the present invention, the sidewall of the via hole is divided into a main etching step of forming a thick polymer when the via hole is formed, and an over etching step of removing the polymer and removing the metallic foot by increasing the etching rate of titanium nitride. It is an excellent effect to improve the yield of the device by eliminating the foot phenomenon occurs in the.

Claims (6)

Sequentially forming a titanium nitride layer, a first interlayer insulating film, an SOG film, and a second interlayer insulating film on a silicon substrate on which an aluminum pattern is formed, and then forming a photoresist pattern for forming a via hole on a second interlayer insulating film; The main etching process is performed until the nitride layer is exposed to form a via hole in which a thick polymer is formed on the sidewall, and the over etching process is performed by using CF gas and oxygen gas to expose the aluminum pattern. A method of forming a via hole in a semiconductor device comprising the step of forming a complete via hole. The method of claim 1, wherein the main etching process is performed under a condition that an etching selectivity of the titanium nitride layer is lower than that of the second interlayer insulating film, the SOG film, and the first interlayer insulating film. The method of claim 1, wherein the main etching process is a source power of 2500 to 3100W, a bias power of 500 to 900W, 10 to 50sccm C ₂ F ₆ , 20 to 60sccm CHF ₃ and 80 to at a pressure of 5 to 15mTorr A method for forming a via hole in a semiconductor device, characterized in that is performed by supplying 160 sccm of argon gas. The method of claim 1, wherein the over-etching process is performed under a condition in which an etching selectivity of the titanium nitride film is high. The method of claim 1, wherein the overetch process is performed under a source power of 2500 to 3100 W, a bias power of 500 to 900 W, and a pressure of 5 to 15 mTorr. The via hole of a semiconductor device according to claim 1, wherein the CF-based gas used in the over-etching process uses any one of a C ₂ F ₆ gas and a gas in which CHF ₃ gas is added to C ₂ F ₆ . Forming method.