Semiconductor device manufacturing: process – Chemical etching – Combined with coating step
Reexamination Certificate
2000-08-11
2002-07-30
Utech, Benjamin L. (Department: 1765)
Semiconductor device manufacturing: process
Chemical etching
Combined with coating step
C438S706000, C438S723000, C438S724000
Reexamination Certificate
active
06426298
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates generally to a method for manufacturing the multi level interconnects of semiconductor devices, and more particularly to method of patterning a dual damascene.
2. Description of the Prior Art
When semiconductor devices for the integrated circuit (IC) become highly integrated, the surface of the chips cannot be supplied with enough area to make the interconnects. For matching up the requirement of interconnects increase with Complementary Metal-Oxide-Semiconductor (CMOS) devices shrinks, many designs of the integrated circuit have to use dual the damascene method. Moreover, it is using the three-dimensional structure of multi-level interconnects at present in the deep sub-micron region, and inter-metal dielectric ( IMD ) as the dielectric material which be used to separate from each of the interconnects. A conducting wire which connects up between the upper and the down metal layers is called the via plug in semiconductor industry. In general, if an opening which forms in the dielectric layer exposure to devices of the substrate in interconnects, it is called the via hole.
There are known two methods for conventional via and interconnect processes, one method is that via and interconnect finish by oneself, wherein the method is that the dielectric is first formed on the metal and then the photoresist layer (PR) is defined on the dielectric, and use the etching process to make the via, and deposit conduction material by means of deposition to finish the via process, then deposit and define metal layer, final, deposit the dielectric layer whereon. The conventional forming metal interconnect process is that make the via interconnect by means of two lithography process. This method requires cumbrous steps of depositing and patterning. And yet, it will result in interconnects to be difficult patterned due to the multi layer connect layout is more daedal in the sub-quarter micron.
Hence, damascene interconnect structure is developed at present. According to particular of the process, it will compartmentalize three types, such as the single type, the dual type and the self-aligned type. The damascene is that etch the trench of interconnects in the dielectric, and then fill the metal as interconnect. This method can introduce metal that is difficult etched into the semiconductor without etching in the interconnect process. Therefore, this invention is the best method of the interconnect process in the sub-quarter micron.
Conventional dual damascene include two patterns, one is the deep pattern, that is the via patterns; another is the shallow pattern or the line pattern, that is the trench patterns. Referring to
FIG. 1A
, first of all, a dielectric
12
is formed over on the substrate
10
, and a etching stop layer
14
is formed over on the dielectric
12
, then a dielectric
16
is formed over on the etching stop layer
14
. And then a photo-resist layer
18
is formed on the dielectric
16
, and the photo-resist layer
18
is patterned as a deep pattern area. As show in
FIG. 1B
, dry etching of the deep patterns is performed by means of the photo-resist layer
18
as a mask, then punch through the dielectric
16
, etching stop layer
14
and the dielectric
12
, and forming a via hole, then remove the photo-resist layer
18
. As show in
FIG. 1C
, a photo-resist layer
22
is formed on the dielectric
16
by deposition, and it is defined to form a shallow pattern area, and the partial surface of the via
20
and the dielectric
16
are exposed, likewise, the horizontal size of the shallow patterns is large more then one of the deep patterns. As show in
FIG. 1D
, dry etching of the shallow patterns is proceed by means of the photo-resist layer
22
as a mask, and exposed partial surface of the dielectric
16
is removed to form a trench
24
having large horizontal size to take advantage of etching stop layer
14
is as a etching terminal point. As show in
FIG. 1E
, the photo-resist layer
22
is removed to form the opening of the damascene
20
,
24
. Final, proceed a interconnect process, since the above processes are well known in the prior art, which are not the focus of the present invention, hence will not be described in greater details.
The skill of the dual damascene is a method for forming via and interconnects. In the conventional dual damascene skill, it is found that has some photoresist plug (PR plug) at the via hole after the trench ADI (after develop inspection). If the photoresist plug is high enough that will be the hard mask during trench etching and to form some crown like oxide residue. Moreover, dry etching of the shallow pattern will produce the facet on the etching stop layer. These profiles will cause the no linear barrier for copper fill-in.
In accordance with the above description, a new and improved method for patterning the dual damascene is therefore necessary, so as to raise the yield and quality of the follow-up process.
SUMMARY OF THE INVENTION
In accordance with the present invention, a new method for patterning dual damascene process is provided that substantially overcomes drawbacks of the above mentioned problems which arise from conventional methods.
Accordingly, it is an object of the present invention to provide a new method for patterning the dual damascene, the present invention use the organic material to be as the gap-filling material, such as I-line and DUV photo-resist material and to be as the Low-K dielectric material, such as silk and flare.
The other object of the present invention is that provide a new method for patterning the dual damascene, the present invention can avoid to product the facet and photo-resist residue in the via hole while the trench is formed, so as to prevent become hard mask during the trench etching. Hence, some oxide residue like as crown is not formed at the bottom of the via hole. Thus, the method of the present invention is effective in raising quality of the process.
Another object of the present invention is to avoid over-etching of the via bottom and destroying the desired conduct electricity area by means of filling the gap-filling material in the via hole, and the copper barrier at the via bottom can be further thin down without any trench etch recipe tuning. Thus, the method of the present invention is easily and to conform to the economic effect, and it is suitable for use in the sub micron range.
A further object of the present invention is that it can use the photo-resist etch recipe to do photo-etch back, and turn on the end point and applying the long over etch to make sure the photo-resist thickness is below middle stop layer.
In accordance with the present invention, a new method for patterning the dual damascene is disclosed. In one embodiment of the present invention, a substrate is provided. A first inter-metal dielectric is formed over the substrate by deposition, and an etching stop layer and a second dielectric are formed in turn on the first dielectric by deposition. A anti-reflection layer ( ARL) is formed over the second dielectric by deposition with the anti-reflection coating (ARC) to prevent the glisten of the surface to influence accuracy of the photo-resist exposure. On the whole, it is called the top anti-reflection coating (TARC) that the anti-reflection layer (ARL) is formed over the photo-resist layer; it is called the bottom anti-reflection coating (BARC) that the anti-reflection layer (ARL) is formed under the photo-resist layer. Then, a photo-resist layer is formed over the anti-reflection layer, and defining the photo-resist layer to be a deep pattern area. Then, a dry etching step of the deep pattern is carried out by means of the first photo-resist layer as the mask, and punch through in turn the anti-reflection layer, the second dielectric layer, the etch stop layer and the first dielectric layer to form a via hole, then the photo-resist layer is removed. A gap-filling materials filled on the second dielectric and into the via hole, wherein the gap-filling material is the organic ma
Chen Tong-Yu
Yang Chan-Lon
Powell Goldstein Frazer & Murphy LLP
Umez-Eronini Lynette T.
United Microelectronics Corp.
Utech Benjamin L.
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