Abrading – Abrading process – With tool treating or forming
Reexamination Certificate
1999-09-28
2002-03-26
Eley, Timothy V. (Department: 3723)
Abrading
Abrading process
With tool treating or forming
C451S059000, C451S060000
Reexamination Certificate
active
06361409
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention relates to a polishing pad for use in a chemical-mechanical polishing operation, and in particular, to a polymeric polishing pad having a treated surface layer which improves polishing performance.
2. Discussion of Related Art
Semiconductor wafers which have integrated circuits fabricated thereon must be polished to produce an extremely smooth and flat wafer surface. One method for polishing a semiconductor wafer is chemical-mechanical polishing (CMP) wherein a chemically active slurry is applied to the wafer surface under pressure from a polishing pad.
The rate at which material is removed from the wafer surface is termed the polishing rate. Higher polishing rates are generally desired to reduce wafer polishing time and production costs. Polishing rates are initially low for an untreated polishing pad. As the polishing pad is broken in by use on successive wafers, polishing rates typically ramp up to a stable maximum level. After a while, the polishing rate tapers off and eventually declines to such an extent that the polishing pad must be renewed or replaced.
Conditioning is a technique wherein a polishing pad is treated to improve polishing performance. Conditioning generally involves making passes or sweeps over the polishing surface of the pad with an abrasive material. Polishing pads are generally pre-conditioned prior to initial use to achieve a stable polishing rate. Polishing pads are also post-conditioned after the polishing rate falls off in order to return the polishing rate to a higher level.
Pre-conditioning is especially necessary for molded polymeric polishing pads because these have a surface skin that must be disturbed or broken in order to expose material below the skin which exhibits a much higher polishing rate. It is desirable to reduce the time required for the pre-conditioning process in order to speed up wafer production and reduce costs. Similarly, it is also desirable to extend the time between post-conditioning operations and to reduce the duration of the post-conditioning process. Therefore, a polishing pad that requires less frequent conditioning and/or reduces the duration of the conditioning process would be advantageous.
SUMMARY OF THE INVENTION
The invention is a polishing pad comprising a polymeric material having a surface layer and a chemical solvent applied to the surface layer, wherein the surface layer is altered by the chemical solvent.
According to one aspect of the invention, the chemical solvent has a solubility parameter that differs by less than about twenty percent, more preferably by less than about ten percent, from a solubility parameter of the polymeric material.
One preferred chemical solvent for polyurethane polishing pads is N-methyl pyrrolidone (NMP).
Another preferred chemical solvent for polyurethane polishing pads is dimethyl formamide (DMF).
A method of treating a polishing pad made of polymeric material comprises contacting a surface of the polishing pad with a chemical solvent, wherein a layer of the polishing pad adjacent to the surface is altered. The chemical solvent may be integrated into a pre-conditioning liquid which is applied to the polishing pad during a pre-conditioning cycle prior to a polishing operation.
Alternatively, the chemical solvent may be integrated into a polishing slurry with which the polishing pad is used during a polishing operation.
DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT
A polishing pad according to the invention is made of a polymeric material. The pad may be produced by any suitable process including thermoplastic injection molding, thermoset injection molding (often referred to as “reaction injection molding” or “RIM”), thermoplastic or thermoset injection blow molding, compression molding, casting, or any similar-type process in which a flowable material is positioned and solidified.
According to the invention, a polymeric polishing pad is treated with a chemical solvent which modifies a surface layer of the polishing pad. The polishing pad may be treated by simply contacting the polishing pad with the solvent. According to one method, the solvent is applied by wiping the polishing pad with a lint-free applicator that has been soaked in the solvent. The solvent is applied as a uniform wet coating to the surface of the polishing pad. Subsequently, the pad is air dried prior to use for CMP.
Alternatively, the solvent can be sprayed onto the surface of the polishing pad using a suitable spray gun or atomizer.
Alternatively, the solvent can be integrated into a pre-conditioning liquid that is applied to the polishing pad during a pre-conditioning cycle prior to a polishing operation.
Alternatively, the chemical solvent can be integrated into a polishing slurry which is then used along with the polishing pad during a polishing operation.
The chemical solvent must be able to modify or alter a surface layer of the polishing pad, yet be non-reactive with any polishing slurry and semiconductor wafer with which the polishing pad will be used.
In order to determine an effective chemical solvent for the polishing pad, one factor which should be considered is solubility parameter. Solubility parameter is a value relating to cohesive energy density of a solvent or a polymer. A solubility parameter can be calculated for each different solvent and each different polymer. The difference between the solubility parameters of two substances relates to how well the substances will mix. As the difference between solubility parameters is reduced, substances can be more readily mixed, and two substances having the same solubility parameter will be completely miscible. A discussion of methods for calculating solubility parameter and a table of solubility parameters for various solvents and polymers can be found in the Polymer Handbook, second edition, Brandrup and Immergut editors, Interscience Publishers, John Wiley and Sons, 1975, pages 341-368.
According to the invention, a suitable solvent for application to a polymeric polishing pad should have a solubility parameter that differs by less than about twenty percent, more preferably by less than about ten percent, from the solubility parameter of the polishing pad material. preferred polymeric polishing pad of the present invention is made of a polyurethane material having a solubility parameter of approximately 10 (cal/cm
3
)
½
. Preferred solvents for use with this polishing pad are N-methyl pyrrolidone (NMP) and dimethyl formamide (DMF), which have solubility parameters of 11.3 and 12.1 (cal/cm
3
)
½
, respectively.
In addition to solubility parameter, another factor which should be considered is hydrogen bonding capability. Polymeric polishing pads are best treated with chemical solvents having a medium to low hydrogen bonding capability.
Polishing pads are generally pre-conditioned prior to use. This pre-conditioning creates or augments the micro-texture of the pad surface. During use, the micro-texture can experience unwanted plastic flow and can be fouled by debris. As a result, polishing pads are generally post-conditioned periodically during their useful life to regenerate an optimal micro-texture.
Solvent treatment according to the invention softens the surface layer of the polishing pad. The softer surface makes the pad easier to condition and can reduce both the pre-conditioning and post-conditioning time significantly.
An optimum micro-texture is more easily achieved, thereby leading to higher polishing rates and increased uniformity across a polished wafer surface.
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Shidner David L.
Vishwanathan Arun
Benson Kenneth A.
Eley Timothy V.
Kaeding Konrad
Kita Gerald K.
Nguyen Dung Van
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