Apparatuses and methods for atomic layer deposition
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H05H-001/24
C23C-016/44
C23C-016/455
H01J-037/32
C23C-016/00
출원번호
US-0625229
(2012-09-24)
등록번호
US-9017776
(2015-04-28)
발명자
/ 주소
Lam, Hyman W. H.
Zheng, Bo
Ai, Hua
Jackson, Michael
Yuan, Xiaoxiong
Wang, Hou Gong
Umotoy, Salvador P.
Yu, Sang Ho
출원인 / 주소
Applied Materials, Inc.
대리인 / 주소
Patterson & Sheridan, LLP
인용정보
피인용 횟수 :
0인용 특허 :
58
초록▼
Embodiments of the invention provide apparatuses and methods for atomic layer deposition (ALD), such as plasma-enhanced ALD (PE-ALD). In some embodiments, a PE-ALD chamber is provided which includes a chamber lid assembly coupled with a chamber body having a substrate support therein. In one embodim
Embodiments of the invention provide apparatuses and methods for atomic layer deposition (ALD), such as plasma-enhanced ALD (PE-ALD). In some embodiments, a PE-ALD chamber is provided which includes a chamber lid assembly coupled with a chamber body having a substrate support therein. In one embodiment, the chamber lid assembly has an inlet manifold assembly containing an annular channel encompassing a centralized channel, wherein the centralized channel extends through the inlet manifold assembly, and the inlet manifold assembly further contains injection holes extending from the annular channel, through a sidewall of the centralized channel, and to the centralized channel. The chamber lid assembly further contains a showerhead assembly disposed below the inlet manifold assembly, a water box disposed between the inlet manifold assembly and the showerhead assembly, and a remote plasma system (RPS) disposed above and coupled with the inlet manifold assembly, and in fluid communication with the centralized channel.
대표청구항▼
1. A method for depositing a material on a substrate, comprising: exposing a substrate sequentially to a titanium precursor gas and a nitrogen plasma to form a titanium nitride material on the substrate during an atomic layer deposition process within a deposition chamber, wherein the titanium precu
1. A method for depositing a material on a substrate, comprising: exposing a substrate sequentially to a titanium precursor gas and a nitrogen plasma to form a titanium nitride material on the substrate during an atomic layer deposition process within a deposition chamber, wherein the titanium precursor gas comprises tetrakis(dimethylamido) titanium, the nitrogen plasma is generated from a remote plasma system, and the atomic layer deposition process comprises: flowing the titanium precursor gas into an annular channel within an inlet manifold assembly, wherein the annular channel surrounds a centralized channel, the centralized channel extends through the inlet manifold assembly, and a chamber lid assembly comprising the inlet manifold assembly is coupled with a chamber body forming the deposition chamber;flowing the titanium precursor gas from the annular channel into the centralized channel via a plurality of injection holes which extend from the annular channel through a sidewall of the centralized channel, and to the centralized channel;flowing the titanium precursor gas through the centralized channel, through a showerhead assembly attached with the chamber lid assembly, and absorbing a layer of the tetrakis(dimethylamido) titanium on the substrate;generating the nitrogen plasma by igniting a process gas comprising nitrogen (N2) with the remote plasma system;flowing the nitrogen plasma through the centralized channel, through the showerhead assembly, and towards the substrate; andexposing the layer of the tetrakis(dimethylamido) titanium to the nitrogen plasma to form the titanium nitride material on the substrate. 2. The method of claim 1, wherein the injection holes comprise a first plurality of injection holes extending towards or substantially towards a central axis of the centralized channel. 3. The method of claim 2, wherein the injection holes comprise a second plurality of injection holes extending tangential or substantially tangential towards the sidewall of the centralized channel. 4. The method of claim 3, wherein the first plurality of injection holes contains three or more injection holes and the second plurality of injection holes contains three or more injection holes. 5. The method of claim 3, further comprising flowing the titanium precursor gas through the second plurality of injection holes to form a circular gas flow of the titanium precursor gas through the centralized channel. 6. The method of claim 5, wherein the circular gas flow has a flow pattern selected from the group consisting of a vortex flow pattern, a helix flow pattern, a spiral flow pattern, a swirl flow pattern, a twirl flow pattern, a twist flow pattern, a coil flow pattern, a corkscrew flow pattern, a curl flow pattern, a whirlpool flow pattern, and a derivative thereof.
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