KR100609541B1 - Forming method for transistor of semiconductor device - Google Patents

Abstract

The present invention relates to a method of forming a transistor of a semiconductor device,

A trench is formed by etching a semiconductor substrate in a predetermined region as a source / drain junction region, an oxide film is formed on the entire surface including the trench, and a photoresist pattern is formed to apply only the trench portion, and the photoresist pattern is masked. Forming a transistor by etching the oxide film, leaving an oxide film only at the bottom of the trench, removing the photoresist pattern, and then forming a planarized doped polysilicon film filling the trench to form a source / drain junction region. It is a technology to improve the characteristics and reliability of semiconductor devices.

Description

Forming method for transistor of semiconductor device

1A to 1C are cross-sectional views showing a transistor forming method of a semiconductor device according to the prior art.

2A to 2D are cross-sectional views showing a transistor forming method of a semiconductor device according to an embodiment of the present invention.

<Description of Symbols for Major Parts of Drawings>

11,21: semiconductor substrate 13: gate electrode

15: low concentration source / drain junction region

17 insulating film spacer 19 high concentration source / drain junction region

23: trench 25: oxide film

27: photosensitive film pattern 29: polysilicon film

The present invention relates to a method for forming a transistor of a semiconductor device, in particular L. D. D .. The present invention relates to a technology for forming an impurity junction region with a conductive layer filling a trench after etching to solve a disadvantage that may occur during a transistor forming process using a lightly doped drain (hereinafter referred to as LDD).

In general, a DRAM, a semiconductor memory device, is composed of one capacitor and one transistor.

In this case, the size of the device decreases as the semiconductor device is highly integrated. However, in the MOSFET (MOSFET) having a small device size, the deterioration of characteristics of the device becomes very important.

In order to reduce the deterioration of the characteristics of the device, a typical example is L.D.D. (LDD: light doped drain, hereinafter referred to as LDD) structure.

The LDD structure is a lightly implanted impurity to form a drain to reduce the electric field of the channel to reduce the deterioration of the characteristics of the device.

However, the LDD structure causes various problems as described below, which does not satisfy high integration of semiconductor devices.

First, since the LDD structure forms a source / drain junction region by an implant process, the LDD structure may cause an RC delay due to junction capacitance.

In addition, the silicon interstitial diffusion generated during the implant process causes redistribution of channel impurities to deepen the reverse short channel effect.

In addition, the refresh characteristic is deteriorated structurally by the junction leakage current in the source / drain junction region.

In addition, an annealing process for activating the dopant after the implant is required, and the process is complicated.

In addition, since the source / drain junction region is formed by the implant process, it is difficult to control the depth of the junction region.

1A to 1C are cross-sectional views illustrating a transistor forming method of a semiconductor device according to the prior art.

First, an isolation layer (not shown) defining an active region is formed on the semiconductor substrate 11, and a gate electrode 13 is formed on the active region of the semiconductor substrate 11.

In this case, the gate electrode 13 is formed by forming a gate electrode material layer on the entire surface and etching it by a photolithography process using a gate electrode mask (not shown). (FIG. 1A)

Next, a low concentration source / drain junction region 15 is formed by ion implanting impurities of low concentration into the semiconductor substrate 11 using the gate electrode 13 as a mask. (FIG. 1B)

An insulating film spacer 17 is formed on sidewalls of the gate electrode 13.

In this case, the insulating film spacers 17 are formed on only the sidewalls of the gate electrode 13 by depositing an insulating film a predetermined thickness on the entire surface and anisotropically etching them.

Next, a transistor having an LDD structure is formed by forming a high concentration source / drain junction region 19 by implanting a high concentration of impurities into the semiconductor substrate 11 using the gate electrode 13 and the insulating layer spacer 17 as a mask. Form. (FIG. 1C)

As described above, the method for forming a transistor of a semiconductor device according to the related art is performed by forming a source / drain junction region by implanting impurities.

Induced RC delay due to junction capacitance, silicon interstitial diffusion generated during the implant process causes redistribution of channel impurities, deepening reverse short channel effect and structurally occurring junction leakage It is difficult to control the depth of the junction area because the refresh characteristics are deteriorated by the current and the annealing process for activation of the dopant after implantation is complicated and the source / drain junction region is formed by the implant process. There is a problem such as lowering the characteristics and reliability of the semiconductor device and thereby lowering the yield and productivity of the semiconductor device.

In order to solve the above problems of the prior art, a trench is formed in a source / drain junction region and the trench is filled with polysilicon to form a source / drain junction region, thereby improving characteristics and reliability of the semiconductor device. SUMMARY OF THE INVENTION An object of the present invention is to provide a method for forming a transistor of a semiconductor device that enables high integration of the semiconductor device.

In order to achieve the above object, a method of forming a transistor of a semiconductor device according to the present invention,

Forming a trench by etching a semiconductor substrate in a region intended as a source / drain junction region;

Forming a thickness of an oxide film on the entire surface including the trench;

Forming a photoresist pattern for coating only the trench portion;

Etching the oxide film using the photoresist pattern as a mask to leave an oxide film only at the bottom of the trench;

Removing the photoresist pattern and forming a planarized doped polysilicon film filling the trench to form a source / drain junction region.

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

2A and 2D are cross-sectional views illustrating a method of forming a transistor in a semiconductor device according to an embodiment of the present invention.

First, an isolation layer defining an active region of the semiconductor substrate 21 is formed.

The trench 23 is formed by etching the semiconductor substrate 21 in a predetermined region as a source / drain junction region in the active region of the semiconductor device.

Next, an oxide film 25 is formed on the entire surface including the surface of the trench 23 with a predetermined thickness. (FIG. 2A)

Then, the photoresist pattern 27 is formed to apply the upper portion of the bottom of the trench 23. In this case, the photoresist layer pattern 27 is formed by applying a photoresist layer on the entire surface and patterning the photoresist layer using an exposure mask (not shown) that exposes only the source / drain junction region.

Then, the oxide film 25 is etched by using the photosensitive film pattern 27 as a mask to leave the oxide film 25 only at the bottom of the trench 23. (FIG. 2B)

Next, the photoresist layer pattern 27 is removed and a polysilicon layer 29 filling the trench 23 is formed on the entire surface.

At this time, the polysilicon layer 29 is doped with impurities. (FIG. 2C)

Next, the polysilicon layer 29 is planarized and etched to form a source / drain junction region in which an oxide layer 25 is provided at the bottom of the trench 23 and the upper portion is filled with the polysilicon layer 29. In this case, the polysilicon layer 29 is doped with a doped or en-type impurity depending on the type of the transistor.

In a subsequent process, a gate stacked structure (not shown), that is, a gate oxide layer, a gate conductive layer, and a hard mask layer are sequentially deposited on the surface of the structure and patterned by a photolithography process using a gate mask to the polysilicon layer 29. The transistor is formed by forming a gate electrode (not shown) exposing the formed source / drain junction region. (FIG. 2D)

As described above, in the method of forming a transistor of a semiconductor device according to the present invention, a source / drain junction region is formed on an oxide layer to reduce junction capacitance, reduce junction leakage current, and improve refresh characteristics, and induce silicon industrial. It is possible to maintain a constant channel dopant, thereby reducing the reverse short channel effect, to omit the annealing process for activation of the dopant, and to adjust the depth of the junction region to the depth of the trench for easy adjustment. It provides an effect that can improve the characteristics and reliability of the device and thereby improve the yield and reliability of the semiconductor device.

Claims (2)

Forming a trench by etching a semiconductor substrate in a region intended as a source / drain junction region; Forming a thickness of an oxide film on the entire surface including the trench; Forming a photoresist pattern for coating only the trench portion; Etching the oxide film using the photoresist pattern as a mask to leave an oxide film only at the bottom of the trench; Forming a source / drain junction region by removing the photoresist pattern and forming a planarized doped polysilicon film filling the trench. The method of claim 1, And forming a depth of the source / drain junction region by the trench depth.

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