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公开(公告)号:US11888045B2
公开(公告)日:2024-01-30
申请号:US17557787
申请日:2021-12-21
Applicant: Applied Materials, Inc.
Inventor: Yongjing Lin , Karla M Bernal Ramos , Luping Li , Shih Chung Chen , Jacqueline S. Wrench , Yixiong Yang , Steven C. H. Hung , Srinivas Gandikota , Naomi Yoshida , Lin Dong
CPC classification number: H01L29/513 , H01L29/401 , H01L29/4958 , H01L29/4966
Abstract: Methods of forming and processing semiconductor devices are described. Certain embodiments related to electronic devices which comprise a dipole region having an interlayer dielectric, a high-κ dielectric material, and a dipole layer. The dipole layer comprises one or more of titanium lanthanum nitride (TiLaN), titanium yttrium nitride (TiYN), titanium strontium nitride (TiSrN), titanium magnesium nitriride (TiMgN, titanium aluminum nitride (TiAlN), titanium tantalum nitride (TiTaN), hafnium carbide (HfC), hafnium nitride (HfN), hafnium oxynitride (HfON), hafnium oxycarbide (HfOC), hafnium carbide aluminum (HfCAl), hafnium aluminum nitride (HfAlN), or hafnium carbonitride (HfCN).
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公开(公告)号:US20220165854A1
公开(公告)日:2022-05-26
申请号:US17668992
申请日:2022-02-10
Applicant: Applied Materials, Inc.
Inventor: Yongjing Lin , Karla M. Bernal Ramos , Shih Chung Chen , Yixiong Yang , Lin Dong , Steven C.H. Hung , Srinivas Gandikota
Abstract: Methods of forming and processing semiconductor devices are described. Certain embodiments related to electronic devices which comprise a dipole region having an interlayer dielectric, a high-K dielectric material, and a dipole layer. The dipole layer comprises one or more of titanium aluminum nitride (TiAIN), titanium tantalum nitride (TiTaN), titanium oxide (TiO), tantalum oxide (TaO), and titanium aluminum carbide (TiAIC).
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公开(公告)号:US20220115516A1
公开(公告)日:2022-04-14
申请号:US17557787
申请日:2021-12-21
Applicant: Applied Materials, Inc.
Inventor: Yongjing Lin , Karla M. Bernal Ramos , Luping Li , Shih Chung Chen , Jacqueline S. Wrench , Yixiong Yang , Steven C.H. Hung , Srinivas Gandikota , Naomi Yoshida , Lin Dong
Abstract: Methods of forming and processing semiconductor devices are described. Certain embodiments related to electronic devices which comprise a dipole region having an interlayer dielectric, a high-κ dielectric material, and a dipole layer. The dipole layer comprises one or more of titanium lanthanum nitride (TiLaN), titanium yttrium nitride (TiYN), titanium strontium nitride (TiSrN), titanium magnesium nitride (TiMgN, titanium aluminum nitride (TiAlN), titanium tantalum nitride (TiTaN), hafnium carbide (HfC), hafnium nitride (HfN), hafnium oxynitride (HfON), hafnium oxycarbide (HfOC), hafnium carbide aluminum (HfCAl), hafnium aluminum nitride (HfAlN), or hafnium carbonitride (HfCN).
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公开(公告)号:US20200373404A1
公开(公告)日:2020-11-26
申请号:US16876276
申请日:2020-05-18
Applicant: Applied Materials, Inc.
Inventor: Yongjing Lin , Karla M. Bernal Ramos , Luping Li , Shih Chung Chen , Jacqueline S. Wrench , Yixiong Yang , Steven C.H. Hung , Srinivas Gandikota , Naomi Yoshida , Lin Dong
Abstract: Methods of forming and processing semiconductor devices are described. Certain embodiments related to electronic devices which comprise a dipole region having an interlayer dielectric, a high-κ dielectric material, and a dipole layer. The dipole layer comprises one or more of titanium lanthanum nitride (TiLaN), titanium yttrium nitride (TiYN), titanium strontium nitride (TiSrN), titanium magnesium nitriride (TiMgN, titanium aluminum nitride (TiAlN), titanium tantalum nitride (TiTaN), hafnium carbide (HfC), hafnium nitride (HfN), hafnium oxynitride (HfON), hafnium oxycarbide (HfOC), hafnium carbide aluminum (HfCAl), hafnium aluminum nitride (HfAlN), or hafnium carbonitride (HfCN).
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公开(公告)号:US10170321B2
公开(公告)日:2019-01-01
申请号:US15462214
申请日:2017-03-17
Applicant: Applied Materials, Inc.
Inventor: Wenyu Zhang , Wei V. Tang , Yixiong Yang , Chen-Han Lin , Yi Xu , Yu Lei , Naomi Yoshida , Lin Dong , Drew Phillips , Srividya Natarajan , Atashi Basu , Kaliappan Muthukumar , David Thompson , Paul F. Ma
Abstract: Described are methods of depositing a titanium aluminum nitride film on a substrate surface with a controlled amount of carbon. The methods include exposing a substrate surface to a titanium precursor, a nitrogen reactant and an aluminum precursor with purges of the unreacted titanium and aluminum precursors and unreacted nitrogen reactants between each exposure.
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Patent Agency Ranking
公开(公告)号:US20210351032A1
公开(公告)日:2021-11-11
申请号:US16867554
申请日:2020-05-05
Applicant: Applied Materials, Inc.
Inventor: Xi Cen , Yakuan Yao , Yiming Lai , Kai Wu , Avgerinos V. Gelatos , David T. Or , Keyvan Kashefi , Yu Lei , Lin Dong , He Ren , Yi Xu , Mehul Naik , Hao Chen , Mang-Mang Ling
IPC: H01L21/02 , H01L21/768 , H01L21/67
Abstract: Methods for pre-cleaning substrates having metal and dielectric surfaces are described. The substrate is exposed to a strong reductant to remove contaminants from the metal surface and damage the dielectric surface. The substrate is then exposed to an oxidation process to repair the damage to the dielectric surface and oxidize the metal surface. The substrate is then exposed to a weak reductant to reduce the metal oxide to a pure metal surface without substantially affecting the dielectric surface. Processing tools and computer readable media for practicing the method are also described.
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公开(公告)号:US20210193468A1
公开(公告)日:2021-06-24
申请号:US17192213
申请日:2021-03-04
Applicant: Applied Materials, Inc.
Inventor: Steven C.H. Hung , Lin Dong , Benjamin Colombeau , Johanes F. Swenberg , Linlin Wang
Abstract: A method of forming a semiconductor structure includes annealing a surface of a substrate in an ambient of hydrogen to smooth the surface, pre-cleaning the surface of the substrate, depositing a high-κ dielectric layer on the pre-cleaned surface of the substrate, performing a re-oxidation process to thermally oxidize the surface of the substrate; performing a plasma nitridation process to insert nitrogen atoms in the deposited high-κ dielectric layer, and performing a post-nitridation anneal process to passivate chemical bonds in the plasma nitridated high-κ dielectric layer.
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公开(公告)号:US10608097B2
公开(公告)日:2020-03-31
申请号:US16033880
申请日:2018-07-12
Applicant: Applied Materials, Inc.
Inventor: Paul F. Ma , Seshadri Ganguli , Shih Chung Chen , Rajesh Sathiyanarayanan , Atashi Basu , Lin Dong , Naomi Yoshida , Sang Ho Yu , Liqi Wu
IPC: H01L29/51 , H01L21/28 , H01L29/40 , H01L29/49 , H01L21/285 , H01L21/8234 , H01L21/8238
Abstract: Film stacks and methods of forming film stacks including a high-k dielectric layer on a substrate, a high-k capping layer on the high-k dielectric layer, an n-metal layer on the high-k capping layer and an n-metal capping layer on the n-metal layer. The n-metal layer having an aluminum rich interface adjacent the high-k capping layer.
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公开(公告)号:US10262858B2
公开(公告)日:2019-04-16
申请号:US15496982
申请日:2017-04-25
Inventor: Naomi Yoshida , Lin Dong , Andrew Kummel , Jessica Kachian , Mary Edmonds , Steve Wolf
IPC: H01L21/02
Abstract: Embodiments described herein relate to semiconductor and metal substrate surface preparation and controlled growth methods. An example application is formation of an atomic layer deposition (ALD) control layer as a diffusion barrier or gate dielectric layer and subsequent ALD processing. Embodiments described herein are believed to be advantageously utilized concerning gate oxide deposition, diffusion barrier deposition, surface functionalization, surface passivation, and oxide nucleation, among other processes. More specifically, embodiments described herein provide for silicon nitride ALD processes which functionalize, passivate, and nucleate a SiNx monolayer at temperatures below about 300° C.
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公开(公告)号:US12249511B2
公开(公告)日:2025-03-11
申请号:US17192213
申请日:2021-03-04
Applicant: Applied Materials, Inc.
Inventor: Steven C. H. Hung , Lin Dong , Benjamin Colombeau , Johanes F. Swenberg , Linlin Wang
Abstract: A method of forming a semiconductor structure includes annealing a surface of a substrate in an ambient of hydrogen to smooth the surface, pre-cleaning the surface of the substrate, depositing a high-κ dielectric layer on the pre-cleaned surface of the substrate, performing a re-oxidation process to thermally oxidize the surface of the substrate; performing a plasma nitridation process to insert nitrogen atoms in the deposited high-κ dielectric layer, and performing a post-nitridation anneal process to passivate chemical bonds in the plasma nitridated high-κ dielectric layer.
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