Semiconductor device manufacturing: process – Coating with electrically or thermally conductive material – To form ohmic contact to semiconductive material
Reexamination Certificate
2002-11-26
2004-04-13
Gurley, Lynne A. (Department: 2812)
Semiconductor device manufacturing: process
Coating with electrically or thermally conductive material
To form ohmic contact to semiconductive material
C438S672000, C438S687000, C438S692000, C438S693000
Reexamination Certificate
active
06720250
ABSTRACT:
CROSS-REFERENCE TO RELATED APPLICATIONS
This application is based upon and claims the benefit of priority from the prior Japanese Patent Application No. 2001-366938, filed on Nov. 30, 2001; the entire contents of which are incorporated herein by reference.
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a slurry for CMP (Chemical Mechanical Polishing) of copper and to a method of manufacturing a semiconductor device by making use of the slurry. In particular, the present invention relates to formation of a damascene wiring of copper, which is designed to be employed in a DRAM or a high-speed logic LSI.
2. Description of the Related Art
In recent years, attention has been drawn to the employment of copper as a wiring material for LSI. Since the working of a Cu layer by means of RIE (Reactive Ion Etching) is accompanied with difficulties, the working of a Cu layer has been generally performed by making use of a damascene wiring-forming method where the CMP method (Chemical Mechanical Polishing Method) is employed.
The working by means of chemical CMP is performed as follows. Namely, a protective film made of an oxide or an organic compound (an organic Cu complex) is formed by chemical reaction on the surface of a Cu layer, and then, the Cu layer is polished while the surface of the Cu layer is protected by this protective film. Therefore, the performance of the working by means of CMP is greatly influenced by the characteristics of the protective film to be employed. Namely, a protective film made of an organic Cu complex which is excellent in flexibility is more preferable than a protective film made of a Cu oxide or an inorganic material in that the polishing rate of Cu layer is relatively high and the erosion of Cu layer can be minimized. Incidentally, if it is desired to form the protective film on the surface of a Cu layer by making use of an organic Cu complex, it can be realized by incorporating a complexing agent which is capable of forming the organic Cu complex into a polishing slurry.
However, the method of forming the protective film made of the organic Cu complex is accompanied with the problem that the resultant protective film is hydrophobic because of the fact that the protective film is formed of an organic material. If the protective film is hydrophobic, it will give rise to instability of the performance of CMP. For example, since residual abrasion dust (residual dust created from the polishing) of the organic Cu complex is hydrophobic, it is not dissolved in a polishing slurry, so that residual abrasion dust is caused to accumulate in a polishing pad. If this residual abrasion dust is accumulated in the polishing pad, the polishing rate of a Cu layer is considerably decreased.
Further, since the surface of a Cu layer being polished is also hydrophobic, residual abrasion dust is caused to adhere onto the surface of the Cu layer. Further, since the Cu layer is polished in the presence of residual abrasion dust, scratches are caused on the surface of the Cu layer.
Therefore, it is required that the protective film made of an organic Cu complex is made hydrophilic. It is conceivable to incorporate a surfactant into the complexing agent in order to hydrophilize the protective film formed of an organic Cu complex. However, if the surfactant is formed of an ionic surfactant, the surfactant may react with Cu to form a compound, or be adsorbed onto the particles in the polishing slurry, thereby deteriorating the performance of CMP. On the other hand, if the surfactant is formed of a nonionic surfactant, the surfactant may be prevented from forming a complex with Cu, thus allowing the surfactant to adsorb onto a hydrophobic organic complex that may be formed through the reaction between Cu and the complexing agent, thereby improving, to some extent, the hydrophilicity of the protective film. However, since the magnitude of hydrophilization of the protective film is insufficient in this case, the effect obtained from this hydrophilization of the protective film would be negligible.
BRIEF SUMMARY OF THE INVENTION
According to a first aspect of the present invention, there is provided a polishing slurry for CMP of Cu, which comprises a first complexing agent containing a heterocyclic compound which is capable of forming a water-insoluble complex with Cu; and a second complexing agent containing a heterocyclic compound which is capable of forming a slightly water-soluble or water-soluble complex with Cu to thereby provide at least one extra ligand subsequent to formation of the complex.
According to a second aspect of the present invention, there is also provided a method of manufacturing a semiconductor device, which comprises:
forming a groove and/or a hole in an insulating film formed above a surface of a substrate;
depositing a copper film on a surface of the insulating film to thereby bury the groove and/or the hole with the copper film; and
polishing the copper film by making use of a polishing slurry comprising a first complexing agent containing a heterocyclic compound which is capable of forming a water-insoluble complex with Cu; and a second complexing agent containing a heterocyclic compound which is capable of forming a slightly water-soluble or water-soluble complex with Cu to thereby provide at least one extra ligand subsequent to the formation of the complex, thereby filling the groove and/or the hole with the polishing slurry and removing the portion of the copper film which is deposited on the insulating film formed outside of the groove and/or hole.
REFERENCES:
patent: 6194317 (2001-02-01), Kaisaki et al.
patent: 6238592 (2001-05-01), Hardy et al.
patent: 6436830 (2002-08-01), Merchant et al.
patent: 6454819 (2002-09-01), Yano et al.
patent: 6458289 (2002-10-01), Merchant et al.
patent: 2001-110759 (2001-04-01), None
patent: 2001-269860 (2001-10-01), None
Minamihaba Gaku
Yano Hiroyuki
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