Patents by Inventor Shi-You Liu
Shi-You Liu 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: 11791413Abstract: A semiconductor device includes a fin protruding from a substrate and extending in a first direction, a gate structure extending on the fin in a second direction, and a seal layer located on the sidewall of the gate structure. A first peak carbon concentration is disposed in the seal layer. A first spacer layer is located on the seal layer. A second peak carbon concentration is disposed in the first spacer layer. A second spacer layer is located on the first spacer layer.Type: GrantFiled: August 2, 2021Date of Patent: October 17, 2023Assignee: UNITED MICROELECTRONICS CORP.Inventors: Shi-You Liu, Shih-Cheng Chen, Chia-Wei Chang, Chia-Ming Kuo, Tsai-Yu Wen, Yu-Ren Wang
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Patent number: 11664425Abstract: A method for fabricating p-type field effect transistor (FET) includes the steps of first providing a substrate, forming a pad layer on the substrate, forming a well in the substrate, performing an ion implantation process to implant germanium ions into the substrate to form a channel region, and then conducting an anneal process to divide the channel region into a top portion and a bottom portion. After removing the pad layer, a gate structure is formed on the substrate and a lightly doped drain (LDD) is formed adjacent to two sides of the gate structure.Type: GrantFiled: January 20, 2022Date of Patent: May 30, 2023Assignee: UNITED MICROELECTRONICS CORP.Inventors: Shi-You Liu, Tsai-Yu Wen, Ching-I Li, Ya-Yin Hsiao, Chih-Chiang Wu, Yu-Chun Liu, Ti-Bin Chen, Shao-Ping Chen, Huan-Chi Ma, Chien-Wen Yu
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Patent number: 11646349Abstract: A structure of semiconductor device is provided, including a substrate. First and second trench isolations are disposed in the substrate. A height of a portion of the substrate is between a top and a bottom of the first and second trench isolations. A gate insulation layer is disposed on the portion of the substrate between the first and second trench isolations. A first germanium (Ge) doped layer region is disposed in the portion of the substrate just under the gate insulation layer. A second Ge doped layer region is in the portion of the substrate, overlapping with the first Ge doped layer region to form a Ge gradient from high to low along a depth direction under the gate insulation layer. A fluorine (F) doped layer region is in the portion of the substrate, lower than and overlapping with the first germanium doped layer region.Type: GrantFiled: October 27, 2021Date of Patent: May 9, 2023Assignee: United Microelectronics Corp.Inventors: Chia-Jung Hsu, Chin-Hung Chen, Chun-Ya Chiu, Chih-Kai Hsu, Ssu-I Fu, Tsai-Yu Wen, Shi You Liu, Yu-Hsiang Lin
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Publication number: 20230014253Abstract: A semiconductor device includes a fin protruding from a substrate and extending in a first direction, a gate structure extending on the fin in a second direction, and a seal layer located on the sidewall of the gate structure. A first peak carbon concentration is disposed in the seal layer. A first spacer layer is located on the seal layer. A second peak carbon concentration is disposed in the first spacer layer. A second spacer layer is located on the first spacer layer.Type: ApplicationFiled: August 2, 2021Publication date: January 19, 2023Applicant: UNITED MICROELECTRONICS CORP.Inventors: Shi-You Liu, Shih-Cheng Chen, Chia-Wei Chang, Chia-Ming Kuo, Tsai-Yu Wen, Yu-Ren Wang
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Patent number: 11557654Abstract: A method for fabricating of semiconductor device is provided, including providing a substrate. A first trench isolation and a second trench isolation are formed in the substrate. A portion of the substrate is etched to have a height between a top and a bottom of the first and second trench isolations. A germanium (Ge) doped layer region is formed in the portion of the substrate. A fluorine (F) doped layer region is formed in the portion of the substrate, lower than and overlapping with the germanium doped layer region. An oxidation process is performed on the portion of the substrate to form a gate oxide layer between the first and second trench isolations.Type: GrantFiled: October 27, 2021Date of Patent: January 17, 2023Assignee: United Microelectronics Corp.Inventors: Chia-Jung Hsu, Chin-Hung Chen, Chun-Ya Chiu, Chih-Kai Hsu, Ssu-I Fu, Tsai-Yu Wen, Shi You Liu, Yu-Hsiang Lin
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Publication number: 20220157814Abstract: A semiconductor device includes a substrate having a P-type device region and an N-type device region, wherein the P-type device region includes germanium dopants. A first gate oxide layer is formed on the P-type device region and a second gate oxide layer is formed on the N-type device region. The first gate oxide layer and the second gate oxide layer are formed through a same oxidation process. The first gate oxide layer includes nitrogen dopants and the second gate oxide layer does not include the nitrogen dopants.Type: ApplicationFiled: December 22, 2020Publication date: May 19, 2022Inventors: Shi-You Liu, Ming-Shiou Hsieh, Zih-Hsuan Huang, Tsai-Yu Wen, Yu-Ren Wang
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Publication number: 20220140080Abstract: A method for fabricating p-type field effect transistor (FET) includes the steps of first providing a substrate, forming a pad layer on the substrate, forming a well in the substrate, performing an ion implantation process to implant germanium ions into the substrate to form a channel region, and then conducting an anneal process to divide the channel region into a top portion and a bottom portion. After removing the pad layer, a gate structure is formed on the substrate and a lightly doped drain (LDD) is formed adjacent to two sides of the gate structure.Type: ApplicationFiled: January 20, 2022Publication date: May 5, 2022Applicant: UNITED MICROELECTRONICS CORP.Inventors: Shi-You Liu, Tsai-Yu Wen, Ching-I Li, Ya-Yin Hsiao, Chih-Chiang Wu, Yu-Chun Liu, Ti-Bin Chen, Shao-Ping Chen, Huan-Chi Ma, Chien-Wen Yu
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Publication number: 20220093741Abstract: A structure of semiconductor device is provided, including a substrate. First and second trench isolations are disposed in the substrate. A height of a portion of the substrate is between a top and a bottom of the first and second trench isolations. A gate insulation layer is disposed on the portion of the substrate between the first and second trench isolations. A first germanium (Ge) doped layer region is disposed in the portion of the substrate just under the gate insulation layer. A second Ge doped layer region is in the portion of the substrate, overlapping with the first Ge doped layer region to form a Ge gradient from high to low along a depth direction under the gate insulation layer. A fluorine (F) doped layer region is in the portion of the substrate, lower than and overlapping with the first germanium doped layer region.Type: ApplicationFiled: October 27, 2021Publication date: March 24, 2022Applicant: United Microelectronics Corp.Inventors: Chia-Jung Hsu, Chin-Hung Chen, Chun-Ya Chiu, Chih-Kai Hsu, Ssu-I Fu, Tsai-Yu Wen, Shi You Liu, Yu-Hsiang Lin
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Publication number: 20220093742Abstract: A method for fabricating of semiconductor device is provided, including providing a substrate. A first trench isolation and a second trench isolation are formed in the substrate. A portion of the substrate is etched to have a height between a top and a bottom of the first and second trench isolations. A germanium (Ge) doped layer region is formed in the portion of the substrate. A fluorine (F) doped layer region is formed in the portion of the substrate, lower than and overlapping with the germanium doped layer region. An oxidation process is performed on the portion of the substrate to form a gate oxide layer between the first and second trench isolations.Type: ApplicationFiled: October 27, 2021Publication date: March 24, 2022Applicant: United Microelectronics Corp.Inventors: Chia-Jung Hsu, Chin-Hung Chen, Chun-Ya Chiu, Chih-Kai Hsu, Ssu-I Fu, Tsai-Yu Wen, Shi You Liu, Yu-Hsiang Lin
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Patent number: 11271078Abstract: A p-type field effect transistor (pFET) includes a gate structure on a substrate, a channel region in the substrate directly under the gate structure, and a source/drain region adjacent to two sides of the gate structure. Preferably, the channel region includes a top portion and a bottom portion, in which a concentration of germanium in the bottom portion is lower than a concentration of germanium in the top portion and a depth of the top portion is equal to a depth of the bottom portion.Type: GrantFiled: April 1, 2020Date of Patent: March 8, 2022Assignee: UNITED MICROELECTRONICS CORP.Inventors: Shi-You Liu, Tsai-Yu Wen, Ching-I Li, Ya-Yin Hsiao, Chih-Chiang Wu, Yu-Chun Liu, Ti-Bin Chen, Shao-Ping Chen, Huan-Chi Ma, Chien-Wen Yu
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Patent number: 11195918Abstract: A structure of semiconductor device is provided, including a substrate. A first trench isolation and a second trench isolation are disposed in the substrate. A height of a portion of the substrate is between a top and a bottom of the first and second trench isolations. A gate insulation layer is disposed on the portion of the substrate between the first and second trench isolations. A germanium (Ge) doped layer region is disposed in the portion of the substrate just under the gate insulation layer. A fluorine (F) doped layer region is in the portion of the substrate, lower than and overlapping with the germanium doped layer region.Type: GrantFiled: September 18, 2020Date of Patent: December 7, 2021Assignee: UNITED MICROELECTRONICS CORP.Inventors: Chia-Jung Hsu, Chin-Hung Chen, Chun-Ya Chiu, Chih-Kai Hsu, Ssu-I Fu, Tsai-Yu Wen, Shi You Liu, Yu-Hsiang Lin
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Patent number: 11107689Abstract: A method for fabricating semiconductor device includes the steps of: providing a substrate having a NMOS region and a PMOS region; forming a pad oxide layer on the substrate, wherein the pad oxide layer comprises a first thickness; performing an implantation process to inject germanium (Ge) into the substrate on the PMOS region; performing a first cleaning process to reduce the first thickness of the pad oxide layer on the PMOS region to a second thickness; performing an anneal process; and performing a second cleaning process to remove the pad oxide layer.Type: GrantFiled: December 3, 2018Date of Patent: August 31, 2021Assignee: UNITED MICROELECTRONICS CORP.Inventors: Shi-You Liu, Tsai-Yu Wen, Ming-Shiou Hsieh, Rong-Sin Lin, Ching-I Li, Neng-Hui Yang
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Patent number: 10796943Abstract: A manufacturing method of a semiconductor structure includes the following steps. A patterned mask layer is formed on a semiconductor substrate. An isolation trench is formed in the semiconductor substrate by removing a part of the semiconductor substrate. A liner layer is conformally formed on an inner sidewall of the isolation trench. An implantation process is performed to the liner layer. The implantation process includes a noble gas implantation process. An isolation structure is at least partially formed in the isolation trench after the implantation process. An etching process is performed to remove the patterned mask layer after forming the isolation structure and expose a top surface of the semiconductor substrate. A part of the liner layer formed on the inner sidewall of the isolation trench is removed by the etching process. The implantation process is configured to modify the etch rate of the liner layer in the etching process.Type: GrantFiled: November 6, 2018Date of Patent: October 6, 2020Assignee: UNITED MICROELECTRONICS CORP.Inventors: Yi-Liang Ye, Chun-Wei Yu, Yu-Ren Wang, Shi-You Liu, Shao-Hua Hsu
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Publication number: 20200235208Abstract: A p-type field effect transistor (pFET) includes a gate structure on a substrate, a channel region in the substrate directly under the gate structure, and a source/drain region adjacent to two sides of the gate structure. Preferably, the channel region includes a top portion and a bottom portion, in which a concentration of germanium in the bottom portion is lower than a concentration of germanium in the top portion and a depth of the top portion is equal to a depth of the bottom portion.Type: ApplicationFiled: April 1, 2020Publication date: July 23, 2020Inventors: Shi-You Liu, Tsai-Yu Wen, Ching-I Li, Ya-Yin Hsiao, Chih-Chiang Wu, Yu-Chun Liu, Ti-Bin Chen, Shao-Ping Chen, Huan-Chi Ma, Chien-Wen Yu
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Patent number: 10700202Abstract: A semiconductor device is disclosed. The semiconductor device comprises a substrate, a gate structure disposed on the substrate, a spacer disposed on the substrate and covering a sidewall of the gate structure, an air gap sandwiched between the spacer and the substrate, and a source/drain region disposed in the substrate and having a faceted surface exposed from the substrate, wherein the faceted surface borders the substrate on a boundary between the air gap and the substrate.Type: GrantFiled: October 28, 2018Date of Patent: June 30, 2020Assignee: UNITED MICROELECTRONICS CORP.Inventors: Kuang-Hsiu Chen, Sung-Yuan Tsai, Chi-Hsuan Tang, Kai-Hsiang Wang, Chao-Nan Chen, Shi-You Liu, Chun-Wei Yu, Yu-Ren Wang
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Patent number: 10651275Abstract: A method for fabricating p-type field effect transistor (FET) includes the steps of first providing a substrate, forming a pad layer on the substrate, forming a well in the substrate, performing an ion implantation process to implant germanium ions into the substrate to form a channel region, and then conducting an anneal process to divide the channel region into a top portion and a bottom portion. After removing the pad layer, a gate structure is formed on the substrate and a lightly doped drain (LDD) is formed adjacent to two sides of the gate structure.Type: GrantFiled: February 11, 2018Date of Patent: May 12, 2020Assignee: UNITED MICROELECTRONICS CORP.Inventors: Shi-You Liu, Tsai-Yu Wen, Ching-I Li, Ya-Yin Hsiao, Chih-Chiang Wu, Yu-Chun Liu, Ti-Bin Chen, Shao-Ping Chen, Huan-Chi Ma, Chien-Wen Yu
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Publication number: 20200144064Abstract: A method for fabricating semiconductor device includes the steps of: providing a substrate having a NMOS region and a PMOS region; forming a pad oxide layer on the substrate, wherein the pad oxide layer comprises a first thickness; performing an implantation process to inject germanium (Ge) into the substrate on the PMOS region; performing a first cleaning process to reduce the first thickness of the pad oxide layer on the PMOS region to a second thickness; performing an anneal process; and performing a second cleaning process to remove the pad oxide layer.Type: ApplicationFiled: December 3, 2018Publication date: May 7, 2020Inventors: Shi-You Liu, Tsai-Yu Wen, Ming-Shiou Hsieh, Rong-Sin Lin, Ching-I Li, Neng-Hui Yang
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Publication number: 20200144102Abstract: A manufacturing method of a semiconductor structure includes the following steps. A patterned mask layer is formed on a semiconductor substrate. An isolation trench is formed in the semiconductor substrate by removing a part of the semiconductor substrate. A liner layer is conformally formed on an inner sidewall of the isolation trench. An implantation process is performed to the liner layer. The implantation process includes a noble gas implantation process. An isolation structure is at least partially formed in the isolation trench after the implantation process. An etching process is performed to remove the patterned mask layer after forming the isolation structure and expose a top surface of the semiconductor substrate. A part of the liner layer formed on the inner sidewall of the isolation trench is removed by the etching process. The implantation process is configured to modify the etch rate of the liner layer in the etching process.Type: ApplicationFiled: November 6, 2018Publication date: May 7, 2020Inventors: Yi-Liang Ye, Chun-Wei Yu, Yu-Ren Wang, Shi-You Liu, Shao-Hua Hsu
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Publication number: 20200098916Abstract: A semiconductor device is disclosed. The semiconductor device comprises a substrate, a gate structure disposed on the substrate, a spacer disposed on the substrate and covering a sidewall of the gate structure, an air gap sandwiched between the spacer and the substrate, and a source/drain region disposed in the substrate and having a faceted surface exposed from the substrate, wherein the faceted surface borders the substrate on a boundary between the air gap and the substrate.Type: ApplicationFiled: October 28, 2018Publication date: March 26, 2020Inventors: Kuang-Hsiu Chen, Sung-Yuan Tsai, Chi-Hsuan Tang, Kai-Hsiang Wang, Chao-Nan Chen, Shi-You Liu, Chun-Wei Yu, Yu-Ren Wang
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Publication number: 20190214465Abstract: A method for fabricating p-type field effect transistor (FET) includes the steps of first providing a substrate, forming a pad layer on the substrate, forming a well in the substrate, performing an ion implantation process to implant germanium ions into the substrate to form a channel region, and then conducting an anneal process to divide the channel region into a top portion and a bottom portion. After removing the pad layer, a gate structure is formed on the substrate and a lightly doped drain (LDD) is formed adjacent to two sides of the gate structure.Type: ApplicationFiled: February 11, 2018Publication date: July 11, 2019Inventors: Shi-You Liu, Tsai-Yu Wen, Ching-I Li, Ya-Yin Hsiao, Chih-Chiang Wu, Yu-Chun Liu, Ti-Bin Chen, Shao-Ping Chen, Huan-Chi Ma, Chien-Wen Yu