One-piece dual gas faceplate for a showerhead in a...

Details One-piece dual gas faceplate for a showerhead in a... One-piece dual gas faceplate for a showerhead in a...

2000-03-16

2001-10-16

Bueker, Richard (Department: 1763)

Coating apparatus

Gas or vapor deposition

Reexamination Certificate

active

06302964

ABSTRACT:

BACKGROUND OF THE DISCLOSURE
1. Field of the Invention
The present invention relates to semiconductor wafer processing systems and, more particularly, to a gas distribution showerhead for supplying at least two process gases to a reaction chamber of a semiconductor wafer processing system.
2. Description of the Background Art
Semiconductor wafer processing systems generally contain a process chamber having a pedestal for supporting a semiconductor wafer within the chamber proximate a processing region. The chamber forms a vacuum enclosure defining, in part, the process region. A gas distribution assembly or showerhead provides one or more process gases to the process region. The gases are then heated and/or supplied energy to form a plasma which performs certain processes upon the wafer. These processes may include chemical vapor deposition (CVD) to deposit a film upon the wafer or an etch reaction to remove material from the wafer.
In processes that require multiple gases, generally the gases are combined within a mixing chamber that is then coupled to the showerhead via a conduit. For example, in titanium nitride deposition using titanium tetrachloride (TiCl4) and ammonia (NH3) as process gases, the two process gases are supplied to a mixing chamber along with respective carrier gases of helium and hydrogen where they are combined to form a gaseous mixture. The gaseous mixture is then coupled through a conduit to a distribution plate, where the plate contains a plurality of holes such that the gaseous mixture is evenly distributed into the process region. As the gaseous mixture enters the process region and is infused with energy, a chemical reaction occurs between the titanium tetrachloride and the ammonia such that the titanium tetrachloride chemically reacts with the ammonia (i.e., the TiCl4 is reduced by the NH3) to produce titanium nitride. The titanium nitride is deposited on the wafer in a chemical vapor deposition reaction.
Other two gas chemical vapor deposition reactions include the thermal decomposition of tetradiethylaminotitanium (TDEAT) in combination with ammonia to produce titanium nitride, the thermal decomposition of tetradimethylaminotitanium (TDMAT) in combination with ammonia or a nitrogen-hydrogen mixture to produce titanium nitride, or a reduction of tungsten hexafluoride (WF6) using hydrogen (H2) to produce tungsten. In any of these cases and any others that require two or more gases to process a wafer, multiple gases need be uniformly supplied to the process region.
Although it is generally advantageous to mix the gases prior to release into the process region to ensure that the gases are uniformly distributed into the process region, the gases tend to begin reduction, or otherwise react, within the mixing chamber. Consequently, deposition or etching of the mixing chamber, conduits and other chamber components may result prior to the gaseous mixture reaching the process region. Additionally, reaction by products may accumulate in the chamber gas delivery components.
In an effort to maintain the gases in separate passageways until they exit the distribution plate into the process region, U.S. Pat. No. 5,595,606 issued Jan. 21, 1997 (the “′606 patent”) discloses a multiple block stack that forms a showerhead that ostensibly maintains two gases in separate passageways until they exit the distribution plate into the process region. As such, the gases do not mix or react with one another until they reach the process region near the wafer.
FIG. 14
depicts a cross sectional view of the prior art showerhead
50
of the ′606 patent which includes an upper, a middle and a lower block
58
,
60
, and
62
having a first set of gas passages
54
a,
54
b,
54
c
(collectively, passageway
54
) and a second set of gas passages
52
a,
52
b
and
52
c
(collectively, passageway
52
) that branch from the upper block to the lower block in a manner that maintains independence of the passageways. Gas is provided to passageway
52
through port
64
and to passageway
54
through port
72
. The passageways
52
and
54
are branched using manifolds
80
and
82
formed in middle block
60
. Specifically, passageway
52
is branched through a manifold
80
and passageway
54
is branched through a manifold
82
.
A coolant channel
84
is provided in the lower block
62
near the gas outlets
78
for cooling the gas outlets
78
to maintain the showerhead at a temperature below the liquification temperature of a process gas, e.g., below 40 degrees C. for TDEAT.
The blocks
58
,
60
and
62
are stacked upon one another and O-rings
90
are placed between the blocks
58
,
60
, and
62
in an attempt to seal the gas within the showerhead. Such O-rings
90
are effective in ensuring that the gas does not leak out of the showerhead but are ineffective in ensuring that the gases do not commingle within the showerhead by leaking between the gas passageways
52
and
54
at the interfaces of the various blocks. Such commingling defeats the purpose of the dual gas passageway assembly, i.e., the gases are not completely separated until they exit the lower block
62
into the process region. Additionally, the existence of O-rings within a process chamber leads to the possibility that the O-ring material will breakdown and contaminate the chamber and/or the wafer surface.
Therefore, there is a need in the art for a showerhead that provides at least two gases to the process region without commingling the gases prior to reaching the process region and without using O-rings to seal the gases into the showerhead.
SUMMARY OF THE INVENTION
The disadvantages associated with the prior art are overcome by the present invention of a one-piece gas distribution faceplate to be used in a showerhead. The one-piece gas distribution faceplate includes a first surface, a second surface, and a third surface. The one-piece gas distribution faceplate comprises a plurality of first gas holes extending through the one-piece gas distribution faceplate between the first surface and the second surface. The one-piece gas distribution faceplate has an internal gas distribution cavity defined by a plurality of interconnecting channels. A plurality of second gas holes extend through the one-piece gas distribution faceplate between the first surface into a plurality of the interconnecting channels. The interconnecting channels are fluidly coupled to a plenum that is in turn connected to at least one gas conduit. The gas conduit extends to the third surface.


REFERENCES:
patent: 5453124 (1995-09-01), Moslehi et al.
patent: 5595606 (1997-01-01), Fujikawa
patent: 5709757 (1998-01-01), Hatano et al.
patent: 5781693 (1998-07-01), Ballance et al.
patent: 5871586 (1999-02-01), Crawley

Affiliated with

Also associated with

Rating

One-piece dual gas faceplate for a showerhead in a... does not yet have a rating. At this time, there are no reviews or comments for this patent.

If you have personal experience with One-piece dual gas faceplate for a showerhead in a..., we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and One-piece dual gas faceplate for a showerhead in a... will most certainly appreciate the feedback.

Rate now

Comments { 0 }

Profile ID: LFUS-PAI-O-2610758