KR20010010038A - A plasma cleaning method - Google Patents

Abstract

PURPOSE: A plasma cleaning is provided, which can remove effectively polymer-based residues of a side wall of reactor generating at the etching process by using waferless auto cleaning. Also it can prevent more polymer-base residues generating at the etching process by pollution of bare wafer because bare wafer is not used. CONSTITUTION: The plasma cleaning is characterized by containing the steps of; (1) pouring the cleaning gas into the plasma reactor after removing the wafer; (2) forming plasma cleaning gas by activating the cleaning gas; and (3) removing the polymer-based residues by using the plasma cleaning gas in the plasma reactor remained polymer-based residues after wafer etching.

Description

Plasma cleaning method {A PLASMA CLEANING METHOD}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an etching process of a semiconductor device, and more particularly, to a plasma cleaning method for removing polymer-based foreign substances formed on an inner surface of a reactor of a plasma apparatus.

In general, plasma cleaning refers to a process of removing dry polymer-based foreign substances on the inner surface of a plasma reactor after dry etching a non-volatile material layer formed on a semiconductor substrate.

That is, a process for removing foreign substances on the wafer surface and inside the chamber generated after the etching process.

On the other hand, stacked layers including photoresist, anti-reflective coating, and metal are etched using dry etching, metal is etched using Cl ₂ gas, and polysilicon is SF ₆ gas. To etch.

Silicon dioxide (SiO ₂ ) is etched using CF ₄ and photoresist is etched using O ₂ .

Recent dry etching cleaning uses oxygen (O ₂ ; oxygen) gas to remove carbon-based residues.

Hereinafter, a plasma cleaning method according to the related art will be described with reference to the accompanying drawings.

1 is a view showing a plasma cleaning method of the prior art.

That is, the plasma apparatus 10 for removing the foreign substances generated by the etching process of the semiconductor device manufacturing process, that is, the polymer resideus (15) formed on the inner surface of the reactor of the plasma apparatus have.

First, after the etching process of the conductive material layer using the etching gas, for example, the gate electrode, the photosensitive foreign material and the carbon-based foreign material are formed on the side wall of the reactor 12 of the plasma apparatus.

At this time, the reactor 12 uses an electrostatic chuck (ESC) 11.

In order to remove the polymer-based foreign material 15, the prior art uses a bare wafer 13, the bare wafer (13) is placed on top of the electrostatic chuck 11, the gas Mixture of cleaning gas is injected through the inlet.

At this time, the mixed cleaning gas is composed of 100 [sccm] of Cl ₂ and 150 [sccm] of SF ₆ .

A 700 watt transformer coupled plasma (TCP) source power is then supplied to the reactor 12 to form a plasma cleaning gas 14.

That is, by supplying the TCP source power at 700 [W / cm ² ] while maintaining the pressure of the reactor 12 at 10 [mTorr], by inducing the plasma cleaning gas 14 into the reactor 12. The polymer foreign material 15 formed on the side wall of the reactor 12 reacts with the plasma cleaning gas 14.

At this time, the plasma 14 chemically reacts with the polymer-based foreign materials 15 formed on the sidewall of the reactor 12 to form volatile foreign materials.

Subsequently, the volatile foreign materials are discharged to the outside by the pump 16 provided on the outside of the reactor 12.

As described above, the conventional technology induces plasma by supplying TCP source power and removes foreign substances formed on the sidewall of the reactor by using a soaked wafer.

However, as described above, the plasma cleaning method according to the related art increases polymer-based foreign matter on the sidewalls of the reactor due to contamination of the soaked wafer used for a long time by aging, and also due to cracking of the etched soaked wafer. There is a problem that further cleaning of the reactor is required.

The present invention has been made to solve the above problems, and an object thereof is particularly to provide a plasma cleaning method using waferless auto cleaning.

1 is a view showing a plasma cleaning method of the prior art

2 illustrates a plasma cleaning method according to an embodiment of the present invention.

Explanation of symbols for the main parts of the drawings

20 plasma chamber 21 electrostatic chuck

22: plasma reactor 23: plasma

24 polymer foreign matter 25 pump

In the plasma cleaning method according to the present invention for achieving the above object, in the plasma reactor in which polymer-based foreign material remains after etching the wafer, removing the wafer and injecting a cleaning gas into the plasma reactor, the cleaning gas And activating the plasma cleaning gas to remove the polymer-based foreign material by using the plasma cleaning gas.

Hereinafter, a plasma cleaning method according to an embodiment of the present invention will be described in detail.

2 is a view showing a plasma cleaning method according to an embodiment of the present invention.

That is, the embodiment of the present invention provides a method of removing the polymer-based foreign material 24 formed on the inner surface of the plasma reactor 22 having the electrostatic chuck 21 without using a bare wafer.

The polymer foreign material 24 as described above is formed when the laminated film is dry-etched during the manufacturing process of the semiconductor device by using plasma (O ₂ , Cl _2, or SF ₆ plasma) in the plasma reactor 21.

In addition, the polymer-based foreign material 24 may include metal, silicate, chlorine, organics, or a mixture thereof.

The plasma formed from chlorine (Cl ₂ ) and oxygen (oxidizing gas; O ₂ ) is used to remove the polymer-based foreign material 24 from the inner surface of the plasma reactor 22.

In addition, in the manufacture of a semiconductor device, since it is difficult to completely remove the polymer foreign matter 24 when dry etching the laminated film including the barrier metal using Cl ₂ plasma, the embodiment of the present invention is etched by adding SF ₆ plasma. .

The dry etching polymer-based foreign material 24 as described above are by-products generated when the laminated film and the photoresist are sequentially etched.

Hereinafter, a plasma cleaning method according to an embodiment of the present invention will be described in detail.

First, in the plasma etching apparatus 20 having the electrostatic chuck 21, the HLD oxide film, polysilicon, tungsten silicide (WSi) and ARC (Anti Reflective Coating) stacked on the wafer are dry-etched.

At this time, polymer-based foreign substances 24 such as photoresist-base residues and tungsten-base residues are formed on the inner surface of the plasma reactor 22.

Here, the photosensitive foreign material is formed by dry etching a photoresist used as a mask for laminating layer patterning, and the tungsten-based foreign material (W _x F _y ) is formed by dry etching a tungsten silicide layer.

In addition, the ARC is dry-etched to form a carbon-based residue (C _x H _y O _z ).

Subsequently, the inside of the plasma reactor 22 is emptied, that is, the wafer on the electrostatic chuck 21 is removed and a plasma cleaning process is performed.

First, a cleaning gas in which O ₂ , Cl ₂ , and SF ₆ are mixed is injected into the plasma reactor 22, and the pressure in the plasma reactor 22 is maintained at 10 [mtorr].

Subsequently, the cleaning gas mixture is flowed while the TCP source power having the energy of 700 Watt is supplied to the plasma reactor 22 maintaining the pressure of 10 [mtorr].

Wherein the scrubbing gas mixture is comprised of 20% (20 sccm) volume O ₂ , 20% (20 sccm) volume Cl ₂ , and 60% (60 sccm) volume SF ₆ .

And the O ₂ is not used in the prior art to remove the carbon-based foreign matter.

The activated cleaning gas is then converted into a plasma cleaning gas 23, and the plasma cleaning gas 23 reacts with the inner surface of the plasma reactor 22.

Here, the plasma reactor 22 uses an electrostatic chuck (ESC) 21 of a bipolar or unipolar type, and is soaked on the electrostatic chuck 21 unlike the prior art. Waferless.

Next, the chemical reaction between the polymer foreign material 24 and the plasma cleaning gas 23 will be described.

① C _x H _y O _z (s) + O ₂ (g) → CO ₂ (g) ↑ + H ₂ O (g)

② W _x F _y (s) + SF ₆ (g) → WF ₆ (g) ↑ + S (g)

In this case, ① denotes a chemical reaction between the carbon-based foreign material and the O ₂ plasma cleaning gas in the plasma cleaning process according to the embodiment of the present invention.

That is, the O ₂ plasma cleaning gas reacts with the carbon-based foreign material (C _x H _y O _z (s)) formed inside the plasma reactor 22 to generate the reaction byproducts CO ₂ (g) and H ₂ O. .

And denotes the chemical reaction between the tungsten-based foreign matter and the SF ₆ plasma cleaning gas in the plasma cleaning process according to the embodiment of the present invention.

That is, the SF ₆ plasma cleaning gas reacts with the tungsten-based foreign material W _x F _y formed on the surface of the plasma reactor 22 to generate reaction byproducts WF ₆ (g) and S (g).

The volatile substances CO ₂ (g) and WF ₆ (g) formed as described above are discharged out through a mechanical pump 25 configured outside the plasma reactor 22.

The cleaning process of the foreign material formed on the sidewall of the plasma reactor 22 generally requires a time of about 15 minutes to 30 minutes depending on the amount of the polymer-based foreign material 24 present in the plasma reactor 22. .

In addition, since a chemical reaction is performed to convert the polymer-based foreign material, which is a solid material, into a gaseous form, it is possible to completely clean so that no by-products exist in the plasma reactor.

In the plasma cleaning method according to the present invention, by using the Cl ₂ / O ₂ / SF ₆ mixture as the cleaning gas, it is possible to efficiently remove the polymer-based foreign substances on the side wall of the reaction furnace generated during the etching process.

In addition, since the bare wafer is not used, there is an effect of preventing a polymer-based foreign matter caused by contamination of the bare wafer generated during etching.

Claims (5)

In a plasma reactor in which a polymer foreign material remains after etching a wafer, Injecting a cleaning gas into the plasma reactor after removing the wafer; Activating the cleaning gas to form a plasma cleaning gas; Plasma cleaning method comprising the step of removing the polymer-based foreign matter using the plasma cleaning gas. The method of claim 1, Wherein said cleaning gas comprises 20 sccm of O ₂ , 20 sccm of Cl ₂ , 60 sccm of SF ₆ . The method of claim 1, The plasma reactor is a plasma cleaning method, characterized in that to maintain a pressure of 10 mtorr while cleaning the polymer-based foreign matter. The method of claim 1, The reaction by-product comprises a CO ₂ , WF ₂ plasma cleaning method. The method of claim 1, The plasma cleaning method further comprises dry etching a laminated film including polysilicon, tungsten silicide, ARC and a photosensitive film formed on the wafer.