Cleaning and liquid contact with solids – Apparatus – With means to movably mount or movably support the work or...
Reexamination Certificate
2001-07-16
2004-02-03
Gulakowski, Randy (Department: 1746)
Cleaning and liquid contact with solids
Apparatus
With means to movably mount or movably support the work or...
C134S147000, C134S151000, C134S184000, C134S902000, C134S001000, C134S001300, C134S002000, C134S031000, C134S033000, C134S032000, C134S034000, C438S906000
Reexamination Certificate
active
06684890
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The disclosure herein relates to an apparatus and method for cleaning semiconductor wafers or other such items requiring extremely high levels of cleanliness.
2. Description of the Related Art
Megasonic cleaning systems are widely used within the semiconductor industry for cleaning substrates such as semiconductor wafers, photomasks, flat-panel displays, magnetic heads or any other similar item that requires a high level of cleanliness. In a megasonic cleaner, the substrates are immersed in or otherwise exposed to a cleaning solution, typically water containing a dilute amount of cleaning chemicals. A source of megasonic energy is activated to agitate the solution and create a cleaning action at the exposed surfaces of the substrates.
In preparing cleaning solutions for megasonic cleaners, gasified water has to date been used only when performing batch cleaning of substrates, such as in an open bath-type megasonic cleaner. For example, U.S. Pat. No. 5,800,626 teaches the use of gasified cleaning solutions in connection with bath-type megasonic cleaning systems. However, gasified cleaning solutions have not been shown to be effective in use with a probe-type megasonic cleaner.
In contrast, with the recent introduction of probe-type megasonic cleaners it has been widely believed unnecessary to gasify the water supplied to the cleaning device, and has even been believed necessary to de-gas the water. Various reasons underlied these beliefs. First, in a probe-type cleaner the megasonic energy source is much closer to the substrate being cleaned; this was thought to obviate the need for any additional cleaning action contributed by the presence or addition of gases dissolved in the solution. In addition, many in the industry believed that the spraying, under pressure, of solution onto the substrate which typically occurs in a probe-type system would aerate the water somewhat and provide the (then presumably modest, if at all) amount of dissolved gas needed for satisfactory cleaning performance with a probe-type cleaner. In other words, it was presumed that the probe-type system would behave in a similar manner as open-tank batch megasonic baths, in which the solution includes gases dissolved from the ambient air. Finally, there has been a fear that excessive oxygen dissolved in the water may react with the hydrogen terminated silicon surface of a substrate and cause, under the high levels of agitation created by a probe-type cleaning system, an unacceptable amount of roughening. As a result, the accepted guideline for probe-type megasonic cleaning processes has been that the water supply contain less than 5 ppb of oxygen in solution.
In light of these widely held beliefs, the inventors were surprised to discover that the gasification of the water used in a probe-type megasonic cleaning system led to substantially improved cleaning performance.
SUMMARY OF THE INVENTION
In accordance with one embodiment there is provided a method of improving the performance of a substrate cleaner of the type having a megasonic probe with a probe shaft extending generally parallel to a surface of a rotating substrate, and at least one dispenser for applying a cleaning liquid onto the surface of the substrate, wherein the megasonic probe agitates the liquid on the surface. The method comprising dissolving gas in the liquid before the liquid reaches the nozzle.
In accordance with another embodiment, an apparatus for cleaning substrates comprises a rotary fixture which is adapted to support a substrate and rotate the substrate about a first axis, a probe having a probe shaft extending generally parallel to a surface of the substrate, and a megasonic transducer in acoustically coupled relation to the probe. The apparatus further comprises at least one dispenser that applies a cleaning liquid drawn from a cleaning liquid supply onto a surface of the substrate, and a gasifier operatively associated with the cleaning liquid supply. The gasifier causes gas to dissolve in the cleaning liquid.
In accordance with yet another embodiment, there is provided an improvement in a substrate cleaner of the type having a megasonic probe with a probe shaft extending generally parallel to a surface of a rotating substrate, and at least one nozzle spraying a cleaning liquid drawn from a cleaning liquid supply onto the surface of the substrate, wherein the megasonic probe agitates the liquid on the surface. The improvement comprises a gasifier operatively associated with the cleaning liquid supply, the gasifier causing gas to dissolve in the cleaning liquid.
All of these embodiments are intended to be within the scope of the invention herein disclosed. These and other embodiments of the present invention will become readily apparent to those skilled in the art from the following detailed description of the preferred embodiments having reference to the attached figures, the invention not being limited to any particular preferred embodiment(s) disclosed.
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Nicolosi et al., “Front End of Line Wet Processing for Advanced Critical Cleans,” Electrochemical Society Proceedings Honolulu (1999).
Yi Wu “Development of an Experimentally Validated Model of Megasonic Cleaning,” Doctoral Thesis 1997.
“Study on Megasonic in Advanced Wet Cleaning Process,” Electrochemical Society Proceedings vol. 95-20.
Nicolosi et al., “Front End of Line Wet Processing for Advanced Critical Cleans,” Electrochemical Society Proceedings Honolulu (1999).
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“Ultra Pure Water Monitoring Guidelines 2000,” Balazs Analytical Laboratory, 1999.
Nicolosi Tom
Wu Yi
Gulakowski Randy
Knobbe Martens Olson & Bear LLP
Kornakov M.
Verteq, Inc.
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