KR100235960B1 - Method of forming conducting line in semiconductor device - Google Patents

Abstract

The present invention relates to a method for forming a conductive line of a semiconductor device, and a flattening process is also required in order to secure a DOF margin in a photolithography process. In order to prevent the step height of the entire device from increasing, a gate is formed in a semiconductor device, a nitride is deposited, a conductive polysilicon is deposited, a planarization process is performed, and polysilicon for sacrifice is used. To a method for forming the same.

Description

Method of forming a conductive line of a semiconductor device

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for forming a conductive line of a semiconductor device, and more particularly, to a technique for reducing a thickness of a device due to a planarization layer in a process of forming a conductive line, .

In general, when a conductive line such as a bit line is formed, an insulating oxide film is required for interlayer insulation with a previously formed conductive line, for example, a gate. In addition, in order to secure a dope margin (DOF margin) Is required. Particularly, as the devices are integrated and the line width is reduced, the planarization can not be achieved, and the photolithography process becomes impossible.

In order to obtain planarization, the step height of the entire device is increased.

As the step height of the entire device increases, the process margin of the subsequent process is reduced. Particularly, in the case of the metal contact, the Aspect Ratio, which is the aspect ratio, increases, For this reason, the increase in the device level difference poses a problem of reducing the productivity of the semiconductor device.

In order to solve the problems of the prior art described above, it is an object of the present invention to provide a method of manufacturing a semiconductor device in which a gate electrode is formed, an insulating film is formed on the gate electrode, polysilicon for a conductive line is deposited, And a method of forming a conductive line of a semiconductor device that enables high integration of a semiconductor device by reducing the thickness of the device.

1 to 7 are sectional views showing a method of forming a conductive line of a semiconductor device according to an embodiment of the present invention.

DESCRIPTION OF THE REFERENCE NUMERALS

1: semiconductor substrate 2: field oxide film

3: gate oxide 4: gate

5: mask oxide 6: oxide spacer

7: Nitride 8: Polysilicon

9: insulating oxide film 10, 13: photosensitive film pattern

11: contact hole 12: sacrificial polysilicon

As described above, the method of forming a conductive line of a semiconductor device according to the present invention is a method of forming a conductive line of a semiconductor device, in which nitride is deposited on the surface of a semiconductor substrate having a gate and a first conductor is formed thereon Forming a conductive line contact hole for exposing the semiconductor substrate using the conductive line contact mask; forming a conductive line contact hole for exposing the semiconductor substrate, Forming a second conductive layer on the second conductive layer by a photolithography process; forming a second conductive layer on the second conductive layer; forming a second conductive layer on the second conductive layer by an exposure and development process using a conductive line mask; Etching the second conductive layer and the first conductor by dry etching the second conductive layer and the first conductive layer to form a top surface of the planarization insulating film, A step of removing the planarization insulating film by a wet method and etching the nitride with the etched first conductor as a mask to form a conductive line.

In order to attain the above object, a method for forming a conductive line of a semiconductor device according to the present invention is a method for forming a conductive line of a semiconductor device, comprising the steps of depositing nitride on the surface of a semiconductor substrate provided with a gate, Forming a bit line contact hole for exposing the semiconductor substrate using the contact mask for a bit line; forming a bit line contact hole in the bit line contact hole, Forming a sacrificial polysilicon filling the contact hole; forming a photoresist pattern by an exposure and development process using a bit line mask on top of the sacrifice polysilicon; and using the photoresist pattern as a mask, A step of etching the polysilicon and removing the photoresist pattern; and a step of etching the etched sacrificial polysilicon Etching the planarization insulating film using the planarization insulating film as an etching barrier, exposing the upper surface of the planarization insulating film by dry etching the sacrificial polysilicon and the bit line polysilicon using the etched planarization insulating film as an etching barrier, A step of removing the planarization insulating film by a wet method, and etching the nitride using the etched bit line polysilicon as a mask to form a bit line.

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

1 to 7 are sectional views showing a method of forming a conductive line of a semiconductor device according to an embodiment of the present invention.

First, a field oxide film 2 is formed on a semiconductor substrate 1 through an isolation process, a gate oxide 3, polysilicon for a gate, a mask oxide 5 and the like are deposited, A gate oxide spacer 6 is formed on the sidewall of the gate 4 and an impurity is implanted into the semiconductor substrate 1 to form a source / (Not shown). (Figure 1)

Then, the nitride film 7 and the bit line polysilicon 8 are deposited as a whole, an insulating oxide film 9 as a planarization insulating film is formed thereon, and then planarization etching is performed thereon. Then, Pattern 10 is formed.

In this case, the insulating oxide film 9 may be formed of borophosphosilicate glass (BPSG), and an oxide (not shown) may be deposited before the nitride 7 is deposited, It is possible to prevent the phenomenon of deterioration.

When the contact process is performed without depositing the polysilicon 8 for the conductive line on the nitride 9 in the above-described process, the general process applied to the nitride barrier SAC, which is a self-aligned contact (SAC) (Fig. 2)

Next, the semiconductor substrate 1 is exposed by successively etching the insulating oxide film 9, the bit line polysilicon 8, and the nitride 7 using the photoresist pattern 10 as a mask After the bit line contact hole 11 is formed, the photoresist pattern 10 is removed.

In this case, if an oxide (not shown) is deposited before the deposition of the nitride 7, the oxide may be etched as well (FIG.

Then, a sacrificial polysilicon film 12 is deposited on the entire surface of the entire surface of the substrate, a photosensitive film is applied on the sacrificial polysilicon film 12, and a thin film pattern 13 is formed by an exposure and development process using a mask for a conductive line. 4)

Then, the sacrificial polysilicon 12 is etched using the photoresist pattern 13 as a mask to form a sacrificial polysilicon pattern 12 '(FIG. 5).

In addition, the exposed insulating oxide film 9 is etched.

For reference, it is also possible to remove the photoresist pattern 13 and use the sacrificial polysilicon pattern 12 'as an etching barrier to etch the underlying insulating oxide film 9. (FIG. 6)

7 shows the step of removing the photoresist pattern 13 and dry-etching the sacrificial polysilicon pattern 12 'and the bit line polysilicon 8 with the insulating oxide film 9 as an etching barrier to form bit lines 8 ', the insulating oxide film 9 is removed by wet etching, and the nitride 7 is dry-etched using the bit line 8' as an etching barrier.

If the nitride 7 is not removed and is not removed, the nitride 7 may be used in a nitrid barrier SAC in a subsequent process of a conductive line contact process. (FIG. 7)

In addition, another embodiment of the present invention is carried out when the storage electrode or the metal wiring is formed.

As described above, the method of forming a conductive line of a semiconductor device according to the present invention exhibits reduction in thickness of a device by a planarizing layer, thereby easily securing a process margin in a subsequent process and enabling high integration of devices .

Claims (4)

A method of forming a conductive line of a semiconductor device, the method comprising: depositing nitride on a surface of a semiconductor substrate having a gate and forming a first conductor on the nitride substrate; forming a planarization insulating film on the first conductor; Forming a conductive line contact hole for exposing the semiconductor substrate using the conductive line contact mask, forming a second conductor for embedding the contact hole, forming a conductive line on the second conductor, A method of manufacturing a semiconductor device, comprising: forming a photoresist pattern by an exposure and development process using a mask; etching the second conductor and the planarization insulation film using the photoresist pattern as a mask; Exposing the planarization insulating film by dry-etching the first conductor to the entire surface, removing the planarization insulating film by a wet method, And forming a conductive line by etching the nitride using the sieve as a mask. The method of claim 1, wherein the nitride is provided in a layered structure including oxide at a lower portion thereof. A method for forming a conductive line of a semiconductor device, the method comprising: depositing nitride on a surface of a semiconductor substrate provided with a gate and forming polysilicon for a bit line on the nitride semiconductor; and forming a planarization insulating film Forming a bit line contact hole for exposing the semiconductor substrate using the contact mask for the bit line; forming sacrificial polysilicon for filling the contact hole; Forming a photoresist pattern by an exposure and development process using a bit line mask; etching the sacrificial polysilicon using the photoresist pattern as a mask to remove the photoresist pattern; Etching the planarizing insulating film using the insulating film as a mask, Etching the sacrificial polysilicon and polysilicon for a bit line by dry etching to expose an upper surface of the planarization insulating film with each barrier, removing the planarization insulating film by a wet method, And forming a bit line by etching the nitride with a mask. The method of claim 3, wherein the nitride is formed in a stacked structure having an oxide at a lower portion thereof.