Patents by Inventor Zheng-Yang Pan
Zheng-Yang Pan 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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Publication number: 20190334029Abstract: A method includes providing a substrate having a gate structure over a first side of the substrate, forming a recess adjacent to the gate structure, and forming in the recess a first semiconductor layer having a dopant, the first semiconductor layer being non-conformal, the first semiconductor layer lining the recess and extending from a bottom of the recess to a top of the recess. The method further includes forming a second semiconductor layer having the dopant in the recess and over the first semiconductor layer, a second concentration of the dopant in the second semiconductor layer being higher than a first concentration of the dopant in the first semiconductor layer.Type: ApplicationFiled: July 8, 2019Publication date: October 31, 2019Inventors: Chih-Yu Ma, Zheng-Yang Pan, Shahaji B. More, Shih-Chieh Chang, Cheng-Han Lee
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Publication number: 20190244864Abstract: A semiconductor device and method includes: forming a gate stack over a substrate; growing a source/drain region adjacent the gate stack, the source/drain region being n-type doped Si; growing a semiconductor cap layer over the source/drain region, the semiconductor cap layer having Ge impurities, the source/drain region free of the Ge impurities; depositing a metal layer over the semiconductor cap layer; annealing the metal layer and the semiconductor cap layer to form a silicide layer over the source/drain region, the silicide layer having the Ge impurities; and forming a metal contact electrically coupled to the silicide layer.Type: ApplicationFiled: April 22, 2019Publication date: August 8, 2019Inventors: Shahaji B. More, Zheng-Yang Pan, Cheng-Han Lee, Shih-Chieh Chang
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Patent number: 10347764Abstract: A method includes providing a substrate having a gate structure over a first side of the substrate, forming a recess adjacent to the gate structure, and forming in the recess a first semiconductor layer having a dopant, the first semiconductor layer being non-conformal, the first semiconductor layer lining the recess and extending from a bottom of the recess to a top of the recess. The method further includes forming a second semiconductor layer having the dopant in the recess and over the first semiconductor layer, a second concentration of the dopant in the second semiconductor layer being higher than a first concentration of the dopant in the first semiconductor layer.Type: GrantFiled: October 5, 2017Date of Patent: July 9, 2019Assignee: Taiwan Semiconductor Manufacturing Company, Ltd.Inventors: Chih-Yu Ma, Zheng-Yang Pan, Shahaji B. More, Shih-Chieh Chang, Cheng-Han Lee
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Publication number: 20190157154Abstract: The present disclosure describes an exemplary fabrication method of a p-type fully strained channel that can suppress the formation of {111} facets during a silicon germanium epitaxial growth. The exemplary method includes the formation of silicon epitaxial layer on a top, carbon-doped region of an n-type region. A recess is formed in the silicon epitaxial layer via etching, where the recess exposes the top, carbon-doped region of the n-type region. A silicon seed layer is grown in the recess, and a silicon germanium layer is subsequently epitaxially grown on the silicon seed layer to fill the recess. The silicon seed layer can suppress the formation of growth defects such as, for example, {111} facets, during the silicon germanium epitaxial layer growth.Type: ApplicationFiled: November 21, 2017Publication date: May 23, 2019Applicant: Taiwan Semiconductor Manufacturing Co., Ltd.Inventors: Chun-Chieh Wang, Huai-Tei Yang, Zheng-Yang Pan, Shahaji B. More, Shih-Chieh Chang, Cheng-Han Lee
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Publication number: 20190148552Abstract: A method for forming a semiconductor device is provided. The method includes forming a gate stack to partially cover a semiconductor structure. The method also includes forming a first semiconductor material over the semiconductor structure. The method further includes forming a second semiconductor material over the first semiconductor material. In addition, the method includes forming a third semiconductor material over the second semiconductor material. The first semiconductor material and the third semiconductor material together surround the second semiconductor material. The second semiconductor material has a greater dopant concentration than that of the first semiconductor material or that of the third semiconductor material.Type: ApplicationFiled: December 24, 2018Publication date: May 16, 2019Applicant: TAIWAN SEMICONDUCTOR MANUFACTURING CO., LTD.Inventors: Shahaji B. MORE, Zheng-Yang PAN, Chun-Chieh WANG, Cheng-Han LEE, Shih-Chieh CHANG
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Patent number: 10269646Abstract: A semiconductor device and method includes: forming a gate stack over a substrate; growing a source/drain region adjacent the gate stack, the source/drain region being n-type doped Si; growing a semiconductor cap layer over the source/drain region, the semiconductor cap layer having Ge impurities, the source/drain region free of the Ge impurities; depositing a metal layer over the semiconductor cap layer; annealing the metal layer and the semiconductor cap layer to form a silicide layer over the source/drain region, the silicide layer having the Ge impurities; and forming a metal contact electrically coupled to the silicide layer.Type: GrantFiled: June 8, 2017Date of Patent: April 23, 2019Assignee: Taiwan Semiconductor Manufacturing Company, Ltd.Inventors: Shahaji B. More, Zheng-Yang Pan, Cheng-Han Lee, Shih-Chieh Chang
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Publication number: 20190096997Abstract: The present disclosure describes an exemplary method to form p-type fully strained channel (PFSC) or an n-type fully strained channel (NFSC) that can mitigate epitaxial growth defects or structural deformations in the channel region due to processing. The exemplary method can include (i) two or more surface pre-clean treatment cycles with nitrogen trifluoride (NF3) and ammonia (NH3) plasma, followed by a thermal treatment; (ii) a prebake (anneal); and (iii) a silicon germanium epitaxial growth with a silicon seed layer, a silicon germanium seed layer, or a combination thereof.Type: ApplicationFiled: September 28, 2017Publication date: March 28, 2019Applicant: Taiwan Semiconductor Manufacturing Co., Ltd.Inventors: Shahaji B. MORE, Huai-Tei YANG, Zheng-Yang PAN, Shih-Chieh CHANG, Chun-Chieh WANG, Cheng-Han LEE
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Publication number: 20190067457Abstract: A method of forming a gate dielectric material includes forming a high-K dielectric material in a first region over a substrate, where forming the high-K dielectric material includes forming a first dielectric layer comprising hafnium over the substrate, and forming a second dielectric layer comprising lanthanum over the first dielectric layer.Type: ApplicationFiled: October 2, 2017Publication date: February 28, 2019Inventors: Shahaji B. More, Cheng-Han Lee, Zheng-Yang Pan, Shih-Chieh Chang, Chun-Chieh Wang
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Publication number: 20190067011Abstract: A FinFET device and method of forming the same are disclosed. The method includes forming a gate dielectric layer and depositing a metal oxide layer over the gate dielectric layer. The method also includes annealing the gate dielectric layer and the metal oxide layer, causing ions to diffuse from the metal oxide layer to the gate dielectric layer to form a doped gate dielectric layer. The method also includes forming a work function layer over the doped gate dielectric layer, and forming a gate electrode over the work function layer.Type: ApplicationFiled: April 27, 2018Publication date: February 28, 2019Inventors: Chun-Chieh Wang, Zheng-Yang Pan, Shih-Chieh Chang, Cheng-Han Lee, Huai-Tei Yang, Shahaji B. More
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Publication number: 20190035694Abstract: A method includes forming a gate stack of a transistor. The formation of the gate stack includes forming a silicon oxide layer on a semiconductor region, depositing a hafnium oxide layer over the silicon oxide layer, depositing a lanthanum oxide layer over the hafnium oxide layer, and depositing a work-function layer over the lanthanum oxide layer. Source/drain regions are formed on opposite sides of the gate stack.Type: ApplicationFiled: July 31, 2017Publication date: January 31, 2019Inventors: Shahaji B. More, Zheng-Yang Pan, Chun-Chieh Wang, Shih-Chieh Chang
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Publication number: 20190006507Abstract: A method includes providing a substrate having a gate structure over a first side of the substrate, forming a recess adjacent to the gate structure, and forming in the recess a first semiconductor layer having a dopant, the first semiconductor layer being non-conformal, the first semiconductor layer lining the recess and extending from a bottom of the recess to a top of the recess. The method further includes forming a second semiconductor layer having the dopant in the recess and over the first semiconductor layer, a second concentration of the dopant in the second semiconductor layer being higher than a first concentration of the dopant in the first semiconductor layer.Type: ApplicationFiled: October 5, 2017Publication date: January 3, 2019Inventors: Chih-Yu Ma, Zheng-Yang Pan, Shahaji B. More, Shih-Chieh Chang, Cheng-Han Lee
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Patent number: 10164100Abstract: Structures and formation methods of a semiconductor device are provided. The semiconductor device structure includes a substrate and a gate structure over the substrate. The semiconductor device structure also includes a source/drain structure near the gate structure. The source/drain structure has an inner portion and an outer portion surrounding an entirety of the inner portion. The inner portion has a greater average dopant concentration than that of the outer portion.Type: GrantFiled: June 11, 2018Date of Patent: December 25, 2018Assignee: TAIWAN SEMICONDUCTOR MANUFACTURING CO., LTD.Inventors: Shahaji B. More, Zheng-Yang Pan, Chun-Chieh Wang, Cheng-Han Lee, Shih-Chieh Chang
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Publication number: 20180294357Abstract: Structures and formation methods of a semiconductor device are provided. The semiconductor device structure includes a substrate and a gate structure over the substrate. The semiconductor device structure also includes a source/drain structure near the gate structure. The source/drain structure has an inner portion and an outer portion surrounding an entirety of the inner portion. The inner portion has a greater average dopant concentration than that of the outer portion.Type: ApplicationFiled: June 11, 2018Publication date: October 11, 2018Applicant: TAIWAN SEMICONDUCTOR MANUFACTURING CO., LTD.Inventors: Shahaji B. MORE, Zheng-Yang PAN, Chun-Chieh WANG, Cheng-Han LEE, Shih-Chieh CHANG
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Patent number: 10043665Abstract: Structures and formation methods of a semiconductor device structure are provided. The semiconductor device structure includes a substrate, a first source portion and a first drain portion over the substrate, and a first semiconductor nanowire over the substrate and between the first source portion and the first drain portion. The first semiconductor nanowire includes a first portion over the substrate and a second portion over the first portion, and the first portion has a first width, and the second portion has a second width, and the second width is less than the first width. The semiconductor device structure also includes a first gate structure over the second portion of the first semiconductor nanowire.Type: GrantFiled: January 5, 2017Date of Patent: August 7, 2018Assignee: Taiwan Semiconductor Manufacturing Co., Ltd.Inventors: Shahaji B. More, Zheng-Yang Pan, Cheng-Han Lee, Shih-Chieh Chang, Chandrashekhar Prakash Savant
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Patent number: 10026840Abstract: Structures of a semiconductor device are provided. The semiconductor device includes a substrate, a gate structure over the substrate, and a first recess and a second recess in the substrate and at opposite sides of the gate structure. The semiconductor device also includes two source/drain structures over the first recess and the second recess respectively. At least one of the source/drain structures includes a first doped region partially filling in the first recess, a second doped region over the first doped region, and a third doped region over the second doped region. The second doped region contains more dopants than the first doped region or the third doped region.Type: GrantFiled: October 13, 2016Date of Patent: July 17, 2018Assignee: TAIWAN SEMICONDUCTOR MANUFACTURING CO., LTD.Inventors: Shahaji B. More, Zheng-Yang Pan, Chun-Chieh Wang, Cheng-Han Lee, Shih-Chieh Chang
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Publication number: 20180174913Abstract: A semiconductor device and method includes: forming a gate stack over a substrate; growing a source/drain region adjacent the gate stack, the source/drain region being n-type doped Si; growing a semiconductor cap layer over the source/drain region, the semiconductor cap layer having Ge impurities, the source/drain region free of the Ge impurities; depositing a metal layer over the semiconductor cap layer; annealing the metal layer and the semiconductor cap layer to form a silicide layer over the source/drain region, the silicide layer having the Ge impurities; and forming a metal contact electrically coupled to the silicide layer.Type: ApplicationFiled: June 8, 2017Publication date: June 21, 2018Inventors: Shahaji B. More, Zheng-Yang Pan, Cheng-Han Lee, Shih-Chieh Chang
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Publication number: 20180151357Abstract: Structures and formation methods of a semiconductor device structure are provided. The semiconductor device structure includes a substrate, a first source portion and a first drain portion over the substrate, and a first semiconductor nanowire over the substrate and between the first source portion and the first drain portion. The first semiconductor nanowire includes a first portion over the substrate and a second portion over the first portion, and the first portion has a first width, and the second portion has a second width, and the second width is less than the first width. The semiconductor device structure also includes a first gate structure over the second portion of the first semiconductor nanowire.Type: ApplicationFiled: January 5, 2017Publication date: May 31, 2018Applicant: Taiwan Semiconductor Manufacturing Co., Ltd.Inventors: Shahaji B. MORE, Zheng-Yang PAN, Cheng-Han LEE, Shih-Chieh CHANG, Chandrashekhar Prakash SAVANT
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Publication number: 20180151730Abstract: A dopant boost in the source/drain regions of a semiconductor device, such as a transistor can be provided. A semiconductor device can include a doped epitaxy of a first material having a plurality of boosting layers embedded within. The boosting layers can be of a second material different from the first material. Another device can include a source/drain feature of a transistor. The source/drain feature includes a doped source/drain material and one or more embedded distinct boosting layers. A method includes growing a boosting layer in a recess of a substrate, where the boosting layer is substantially free of dopant. The method also includes growing a layer of doped epitaxy in the recess on the boosting layer.Type: ApplicationFiled: January 27, 2017Publication date: May 31, 2018Inventors: Chih-Yu Ma, Zheng-Yang Pan, Shih-Chieh Chang, Cheng-Han Lee
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Publication number: 20180145076Abstract: A fin field effect transistor (FinFET) device structure and method for forming the same are provided. The FinFET device structure includes a fin structure extending above a substrate. The fin structure includes a channel region, a portion of the channel region is made of silicon germanium (SiGe), and the silicon germanium (SiGe) has a gradient germanium (Ge) concentration. The FinFET device structure includes a gate structure formed on the channel region of the fin structure.Type: ApplicationFiled: November 18, 2016Publication date: May 24, 2018Applicant: Taiwan Semiconductor Manufacturing Co., Ltd.Inventors: Chun-Chieh WANG, Zheng-Yang PAN, Shih-Chieh CHANG, Yi-Min HUANG, Shahaji B. MORE, Tsung-Lin LEE
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Publication number: 20180130802Abstract: A fin field effect transistor (FinFET) device structure and method for forming the same are provided. The FinFET device structure includes a fin structure extending above a substrate, and the fin structure has a first portion and a second portion below the first portion, and the first portion and the second portion are made of different materials. The FinFET device structure includes an isolation structure formed on the substrate, and an interface between the first portion and the second portion of the fin structure is above a top surface of the isolation structure. The FinFET device structure includes a liner layer formed on sidewalls of the second portion of the fin structure.Type: ApplicationFiled: November 10, 2016Publication date: May 10, 2018Applicant: Taiwan Semiconductor Manufacturing Co., Ltd.Inventors: Chun-Chieh WANG, Zheng-Yang PAN, Yi-Min HUANG, Shih-Chieh CHANG, Tsung-Lin LEE