Patents by Inventor Wayne BAO
Wayne BAO has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 9570468Abstract: Semiconductor devices and fabrication methods for simultaneously forming a 3T-FinFET and a 4T-FinFET on a same substrate are provided. A first fin and a second fin can be formed on a semiconductor substrate. The first fin has a top surface higher than the second fin. A first gate dielectric layer and a first gate can be formed across the first fin. A second gate dielectric layer and a second gate can be formed across the second fin. An interlayer dielectric layer can be formed to cover the first gate, the second gate, and the semiconductor substrate. A first portion of the interlayer dielectric layer, a portion of the first gate, and a portion of the first gate dielectric layer, over the first fin, and a second portion of the interlayer dielectric layer over the second fin can be removed to expose the second gate.Type: GrantFiled: February 2, 2016Date of Patent: February 14, 2017Assignee: SEMICONDUCTOR MANUFACTURING INTERNATIONAL (SHANGHAI) CORPORATIONInventor: Wayne Bao
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Patent number: 9379240Abstract: A semiconductor device includes a substrate that has a surface. The semiconductor further includes a fin disposed on the surface and including a semiconductor member. The semiconductor further includes a spacer disposed on the surface, having a type of stress, and overlapping the semiconductor member in a direction parallel to the surface. A thickness of the spacer in a direction perpendicular to the surface is less than a height of the semiconductor member in the direction perpendicular to the surface.Type: GrantFiled: October 8, 2014Date of Patent: June 28, 2016Assignees: SEMICONDUCTOR MANUFACTURING INTERNATIONAL (SHANGHAI) CORPORATION, SEMICONDUCTOR MANUFACTURING INTERNATIONAL (BEIJING) CORPORATIONInventor: Wayne Bao
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Publication number: 20160155758Abstract: Semiconductor devices and fabrication methods for simultaneously forming a 3T-FinFET and a 4T-FinFET on a same substrate are provided. A first fin and a second fin can be formed on a semiconductor substrate. The first fin has a top surface higher than the second fin. A first gate dielectric layer and a first gate can be formed across the first fin. A second gate dielectric layer and a second gate can be formed across the second fin. An interlayer dielectric layer can be formed to cover the first gate, the second gate, and the semiconductor substrate. A first portion of the interlayer dielectric layer, a portion of the first gate, and a portion of the first gate dielectric layer, over the first fin, and a second portion of the interlayer dielectric layer over the second fin can be removed to expose the second gate.Type: ApplicationFiled: February 2, 2016Publication date: June 2, 2016Inventor: WAYNE BAO
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Patent number: 9312386Abstract: This application discloses a Fin FET structure and a method for forming the same. In the Fin FET structure, there are lower stress spacers disposed over the lower portion of the fin's opposite sidewalls, asserting one stress type to suppress the carrier mobility; there are also upper stress spacers disposed over the upper portion of the fin's opposite sidewalls, asserting an opposite stress type to increase the carrier mobility. Therefore, the leakage current in the fin FET is reduced and the device performance is improved. In the method, the stress spacers are formed by depositing stress layers and etching back the stress layers, where stress types and magnitudes are controllable, resulting in a simple process.Type: GrantFiled: June 28, 2015Date of Patent: April 12, 2016Assignee: SEMICONDUCTOR MANUFACTURING INTERNATIONAL CORP.Inventor: Wayne Bao
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Patent number: 9287182Abstract: Semiconductor devices and fabrication methods for simultaneously forming a 3T-FinFET and a 4T-FinFET on a same substrate are provided. A first fin and a second fin can be formed on a semiconductor substrate. The first fin has a top surface higher than the second fin. A first gate dielectric layer and a first gate can be formed across the first fin. A second gate dielectric layer and a second gate can be formed across the second fin. An interlayer dielectric layer can be formed to cover the first gate, the second gate, and the semiconductor substrate. A first portion of the interlayer dielectric layer, a portion of the first gate, and a portion of the first gate dielectric layer, over the first fin, and a second portion of the interlayer dielectric layer over the second fin can be removed to expose the second gate.Type: GrantFiled: October 23, 2013Date of Patent: March 15, 2016Assignee: SEMICONDUCTOR MANUFACTURING INTERNATIONAL (SHANGHAI) CORPORATIONInventor: Wayne Bao
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Publication number: 20150303304Abstract: This application discloses a Fin FET structure and a method for forming the same. In the Fin FET structure, there are lower stress spacers disposed over the lower portion of the fin's opposite sidewalls, asserting one stress type to suppress the carrier mobility; there are also upper stress spacers disposed over the upper portion of the fin's opposite sidewalls, asserting an opposite stress type to increase the carrier mobility. Therefore, the leakage current in the fin FET is reduced and the device performance is improved. In the method, the stress spacers are formed by depositing stress layers and etching back the stress layers, where stress types and magnitudes are controllable, resulting in a simple process.Type: ApplicationFiled: June 28, 2015Publication date: October 22, 2015Inventor: Wayne BAO
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Patent number: 9099558Abstract: This application discloses a Fin FET structure and a method for forming the same. In the Fin FET structure, there are lower stress spacers disposed over the lower portion of the fin's opposite sidewalls, asserting one stress type to suppress the carrier mobility; there are also upper stress spacers disposed over the upper portion of the fin's opposite sidewalls, asserting an opposite stress type to increase the carrier mobility. Therefore, the leakage current in the fin FET is reduced and the device performance is improved. In the method, the stress spacers are formed by depositing stress layers and etching back the stress layers, where stress types and magnitudes are controllable, resulting in a simple process.Type: GrantFiled: October 16, 2012Date of Patent: August 4, 2015Assignee: SEMICONDUCTOR MANUFACTURING INTERNATIONAL CORP.Inventor: Wayne Bao
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Publication number: 20150021673Abstract: A semiconductor device includes a substrate that has a surface. The semiconductor further includes a fin disposed on the surface and including a semiconductor member. The semiconductor further includes a spacer disposed on the surface, having a type of stress, and overlapping the semiconductor member in a direction parallel to the surface. A thickness of the spacer in a direction perpendicular to the surface is less than a height of the semiconductor member in the direction perpendicular to the surface.Type: ApplicationFiled: October 8, 2014Publication date: January 22, 2015Inventor: Wayne BAO
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Patent number: 8871622Abstract: A semiconductor device includes a substrate that has a surface. The semiconductor further includes a fin disposed on the surface and including a semiconductor member. The semiconductor further includes a spacer disposed on the surface, having a type of stress, and overlapping the semiconductor member in a direction parallel to the surface. A thickness of the spacer in a direction perpendicular to the surface is less than a height of the semiconductor member in the direction perpendicular to the surface.Type: GrantFiled: February 7, 2013Date of Patent: October 28, 2014Assignees: Semicondoctor Manufacturing International (Shanghai) Corporation, Semiconductor Manufacturing International (Beijing) CorporationInventor: Wayne Bao
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Patent number: 8865593Abstract: Exemplary embodiments provide materials and methods for forming a metal silicide layer and/or an NMOS transistor. The metal silicide layer can be formed by heating a metal layer containing at least a tellurium element on a semiconductor substrate. The metal silicide layer can thus contain at least the tellurium element on the semiconductor substrate. The metal silicide layer can be formed in an NMOS transistor. With the addition of tellurium element in the metal silicide layer, Schottky barrier height between the metal silicide layer and the underling semiconductor substrate can be reduced. Contact resistance of the NMOS transistor can also be reduced.Type: GrantFiled: October 18, 2012Date of Patent: October 21, 2014Assignee: Semiconductor Manufacturing International CorpInventors: Haibo Xiao, Wayne Bao, Yanlei Ping
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Publication number: 20140167166Abstract: Semiconductor devices and fabrication methods for simultaneously forming a 3T-FinFET and a 4T-FinFET on a same substrate are provided. A first fin and a second fin can be formed on a semiconductor substrate. The first fin has a top surface higher than the second fin. A first gate dielectric layer and a first gate can be formed across the first fin. A second gate dielectric layer and a second gate can be formed across the second fin. An interlayer dielectric layer can be formed to cover the first gate, the second gate, and the semiconductor substrate. A first portion of the interlayer dielectric layer, a portion of the first gate, and a portion of the first gate dielectric layer, over the first fin, and a second portion of the interlayer dielectric layer over the second fin can be removed to expose the second gate.Type: ApplicationFiled: October 23, 2013Publication date: June 19, 2014Applicant: Semiconductor Manufacturing International (Shanghai) CorporationInventor: WAYNE BAO
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Publication number: 20130341687Abstract: Exemplary embodiments provide materials and methods for forming a metal silicide layer and/or an NMOS transistor. The metal silicide layer can be formed by heating a metal layer containing at least a tellurium element on a semiconductor substrate. The metal silicide layer can thus contain at least the tellurium element on the semiconductor substrate. The metal silicide layer can be formed in an NMOS transistor. With the addition of tellurium element in the metal silicide layer, Schottky barrier height between the metal silicide layer and the underling semiconductor substrate can be reduced. Contact resistance of the NMOS transistor can also be reduced.Type: ApplicationFiled: October 18, 2012Publication date: December 26, 2013Inventors: HAIBO XIAO, WAYNE BAO, YANLEI PING
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Publication number: 20130168748Abstract: This application discloses a Fin FET structure and a method for forming the same. In the Fin FET structure, there are lower stress spacers disposed over the lower portion of the fin's opposite sidewalls, asserting one stress type to suppress the carrier mobility; there are also upper stress spacers disposed over the upper portion of the fin's opposite sidewalls, asserting an opposite stress type to increase the carrier mobility. Therefore, the leakage current in the fin FET is reduced and the device performance is improved. In the method, the stress spacers are formed by depositing stress layers and etching back the stress layers, where stress types and magnitudes are controllable, resulting in a simple process.Type: ApplicationFiled: October 16, 2012Publication date: July 4, 2013Inventor: Wayne BAO