Cleaning and liquid contact with solids – Apparatus – With plural means for supplying or applying different fluids...
Reexamination Certificate
2000-04-24
2002-08-20
Gulakowski, Randy (Department: 1746)
Cleaning and liquid contact with solids
Apparatus
With plural means for supplying or applying different fluids...
C134S140000, C134S149000, C134S153000, C134S157000, C118S052000
Reexamination Certificate
active
06435200
ABSTRACT:
BRIEF DESCRIPTION OF THE INVENTION
The invention relates to a device and a process for liquid treatment of a defined section of wafer-shaped article, a section near the edge, especially of a wafer.
The reason for treatment of a defined section of wafer-shaped article near the edge, especially of a wafer, will be described below.
A wafer, for example a silicon wafer, can for example have a silicon dioxide coating on all sides. For subsequent processes (if for example a layer of gold or a layer of polysilicon (polycrystalline silicon) is to be applied) , it can be necessary to remove the existing coating from the wafer at least in the edge area of the main surface, but optionally also in the area of its peripheral surface and/or the second main surface. This is done by etching processes which can be divided mainly into dry etching processes and wet etching processes.
Another application is the cleaning of wafers. Here it can be necessary to clean a wafer at least in the edge area of a main surface, but optionally also in the area of its peripheral surface and/or the second main surface, i.e. to remove particles and/or other contamination. This is done by wet cleaning processes.
The invention is aimed at wet etching and wet cleaning (combined under the concept of liquid treatment) . In doing so the surface area of the wafer to be treated is wetted with the treatment liquid and the layer which is to be removed or the impurities are carried off.
A device for executing this liquid treatment is described for example in US 4 903 717. In this device the wafer-shaped article (wafer) is mounted on a spin chuck. The treatment liquid, for example, an etching liquid, is applied to the wafer surface to be treated, the liquid is distributed as a result of the rotational motion of the wafer over its surface and is flung off laterally over the edge of the wafer.
To prevent the treatment liquid from reaching the surface which is not be to treated in an uncontrolled manner, in U.S. Pat. No. 4, 903, 717 a chuck is proposed which flushes the surface which faces the chuck and which is not to be treated with a gas. In doing so the gas emerges between the wafer edge and the chuck.
JP 09-181026 A describes a chuck for semiconductor wafers which outside of an annular nozzle has a special shape, for example an annular step which falls away to the outside or a bevelling of its edge. In addition, a suction opening is proposed. This shaping of the intake opening is designed to influence (reduce) the flow velocity in the edge area. This is intended to serve such that the treatment liquid which has been applied from overhead flows beyond the edge of the wafer onto the side facing the chuck and treats the edge area there.
Regardless of whether a means to hold the wafer-shaped article (chuck) is used as claimed in US 4 903 717 or JP 09-181026 A, an edge area of 1.5 mm (measured from the outer edge of the wafer) at most can be treated on the main surface facing the chuck. The liquid afterwards flows back in the direction of the wafer edge and is flung off by it.
SUMMARY OF THE INVENTION
Accordingly the object of the invention is to demonstrate one possibility for treating a defined, edge-side area with a liquid on one surface of a wafer-shaped article and it is also to be possible to treat an edge area of more than 2 mm (measured from the outside edge of the wafer).
Accordingly, the invention in its general embodiment proposes a device for liquid treatment of a defined section of a wafer-shaped article, especially a wafer, near the edge, with a means for holding the wafer-shaped article, with a gas feed means for at least partial gas flushing of the surface of the wafer-shaped article which faces the means, in which on the peripheral side there is a gas guide device which routes most of the flushing gas in the edge area of the wafer-shaped article away from the latter.
The holding means (chuck) is used to hold the wafer for this purpose. Here holding can be done using a vacuum or the wafer floats on an air cushion and is prevented from sliding off sideways by lateral guide elements.
The wafer can also be held by the gas which flows past on the bottom of the wafer forming a negative pressure (also called the Bernoulli effect) by which the wafer experiences a force in the direction of the chuck. The wafer is touched by an elevated part of the chuck within the gas feed device, by which the wafer is prevented from sliding off sideways.
Via the gas feed line the gas can be routed onto the bottom (the surface which faces the chuck) of the wafer-shaped article (wafer) in order to prevent the liquid from reaching this bottom and thus executing unwanted treatment. The gas used for this purpose should be inert to the surface onto which it is flowing; for example, nitrogen or extremely pure air are suited.
The gas feed means can consist of one or more nozzles or an annular nozzle. These nozzles should be attached symmetrically to the center of the chuck in order to enable uniform gas flow over the entire periphery.
The gas guide device is used to route the gas which flows from the middle part of the chuck in the direction of the edge of the wafer away from the edge area. The gas now flows past the side of the gas guide device which faces away from the wafer-shaped article. The farther inside (towards the center of the chuck) this gas guide device is attached, the larger the edge area is at this point.
Since in the section of the bottom of the wafer near the edge essentially gas can no longer flow to the outside, in treatment with the liquid the latter can flow around the wafer edge onto the bottom and thus can wet the section of the wafer bottom near the edge.
The advantage of the invention over the prior art is that the size of the section near the edge can be any size desired by means of suitable selection of the gas guide device.
The gas stream which flows past the gap between the gas guide device and the wafer can produce a negative pressure within the gap by suitable shaping of the gas guide, by which in addition in the edge area the gas flows from the vicinity of the wafer edge to the inside. During liquid treatment the liquid is thus sucked into the edge area.
In one embodiment the gas guide device has the shape of a ring. This ring can be attached to the base body of the chuck using for example three or more spacers. But it can also be machined out of the base body by corresponding milling.
The ring in one embodiment has an inside diameter which is smaller than the outside diameter of the wafer-shaped article and an outside diameter which is at least the same size as the outside diameter of the wafer-shaped article.
In this way the liquid which flows around the peripheral-side edge of the wafer-shaped article (around the wafer edge) can be captured by the ring and delivered to the inside.
The gas guide device can also be formed by an annular groove which is concentric to the periphery of the means and from which the gas is discharged to the outside. This can be ensured by simple holes which lead to the outside from the bottom of the groove in the base body of the chuck.
In another embodiment the gas guide device on its inner periphery has a sharp edge (edge angle less than 60°). In this way almost all the gas can be routed away in the edge area from the wafer.
In one embodiment the part of the means which is located between the gas feed means and the gas guide device (base body) is located at a greater distance to the wafer-shaped article (wafer) than the gas guide device to the wafer-shaped article. In this way more gas can flow between the wafer and this part (base body) than between the wafer and the gas guide device. Most of the gas on the side of the gas guide device facing away from the wafer must therefore flow past this device.
Advantageously the gas guide device is configured such that if there is a wafer-shaped article (wafer) on the chuck the gas guide device does not touch the wafer-shaped article (wafer), i.e. a gap remains between the wafer and the ring.
This gap between the gas guide device and the
Gulakowski Randy
Perrin Joseph
Sez Semiconductor-Equipment Zubehor fur die Halbleiterfertigung
Young & Thompson
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