Electrolysis: processes – compositions used therein – and methods – Electrolytic coating – Coating selected area
Reexamination Certificate
1999-08-13
2001-04-10
Gorgos, Kathryn (Department: 1741)
Electrolysis: processes, compositions used therein, and methods
Electrolytic coating
Coating selected area
C205S220000
Reexamination Certificate
active
06214193
ABSTRACT:
BACKGROUND OF THE INVENTION
Electroplating is a process for depositing a metal layer on a work piece such as a semiconductor wafer. In conventional plating, a wafer is processed serially through three separate stages: pre-treatment, plating, and rinse.
After the wafer is prepared for electroplating in one or more pre-treatment cells in the pre-treatment stage, the wafer is transported to an electroplating cell in the plating stage.
In the electroplating cell, the wafer is immersed in a bath containing a solution of dissolved salts of the metal to be deposited. An anode and cathode terminal are provided in the bath with the wafer attached to the cathode. A direct current is applied between the anode and cathode causing the dissolved salts to chemically reduce and form the corresponding metal on portions of the wafer exposed to the current and solution.
After plating is completed, the wafer is removed from the solution bath. Sometimes, a small amount of rinsing (i.e., pre-rinsing) using ultra pure water is performed in the plating cell causing ultra pure water to enter the solution bath. However, the resulting dilution of the dissolved salt concentration in the bath limits the amount of rinsing in the plating cell. Therefore, the rinsing over the solution bath is incomplete. In this partially rinsed state, the wafer awaits transport to a separate cell in the rinsing stage for a more thorough rinse and dry.
One problem with this system is that often substantial time (e.g., minutes) elapses between the electroplating in the plating cell and the rinsing while the system awaits availability of a rinse cell, a transport system, or a human operator. Substantial time may elapse when, for example, there is throughput bottleneck in the rinse stage. During this time, solution molecules may stay attached to the wafer due to the relatively low surface energy of the solution. This allows the solution, in some cases, to chemically react with the elements of the wafer, particularly metallic elements. For example, a water-based salt solution tarnishes a copper work piece if exposed even for a short time. As circuit feature dimensions progress farther into the submicron range, such tarnishing can significantly reduce die yields.
Another problem with this system is that the plating cell cannot be used while the wafer awaits transport to the rinsing stage, leaving the plating cell underutilized.
Therefore, there is a clear need for a system that decreases the time lag between the plating and rinse stages.
SUMMARY OF THE INVENTION
A plating cell has a wafer holder that can selectively spin a wafer. An inner plating bath container is positioned along the axis of rotation of the wafer. A first channel (e.g., a reclaim channel) has a first inlet at least partially surrounding the axis. A second channel (e.g., a waste channel) has a second inlet at least partially surrounding the axis of rotation of the wafer. The second inlet (e.g., the waste inlet) is provided above the first inlet (e.g., the reclaim inlet). An actuator selectively moves the wafer holder along the axis so that the wafer holder can be positioned at a height below the first inlet.
The following occurs within this single plating cell. A wafer is first electroplated by lowering the wafer holder to a position in the inner plating bath container that is below a plating solution level. After electroplating, the wafer is raised out of the plating bath and spun so that the spun-off water and plating solution enters the reclaim or waste inlets. When the spun-off water and plating solution enters the waste inlet, a relatively large volume of rinse solution (e.g., 10 milliliters or more) can be applied (e.g., sprayed) onto the wafer to thoroughly rinse the wafer. The wafer can also be subsequently dried by spinning the wafer at a relatively fast spin rate.
The principles of the present invention reduce the time lag between the plating and rinsing stage. Therefore, unwanted chemical reactions (e.g., corrosion and galvanic reactions) are prevented and a good surface finish is achieved. In one embodiment, the wafer surface is completely and simultaneously covered with water during rinsing. Time delay between water coverage at one point on the wafer surface compared to another point may result in galvanic corrosion on the wafer surface. When this occurs, copper is dissolved where water coverage is adequate but is deposited where it is inadequate.
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Contolini Robert J.
Patton Evan E.
Reid Jonathan D.
Taatjes Steven W.
Gorgos Kathryn
Novellus Systems Inc.
Skjerven Morrill & MacPherson LLP
Smith-Hicks Erica
Steuber David E.
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