Patents by Inventor Su-Hao LIU
Su-Hao 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: 11791204Abstract: A connecting structure includes a first dielectric layer disposed over a substrate and a conductive feature, a doped dielectric layer disposed over the first dielectric layer, a first metal portion disposed in the first dielectric layer and in contact with the conductive feature, and a doped metal portion disposed over the first metal portion. The first metal portion and the doped metal portion include a same noble metal material. The doped dielectric layer and the doped metal portion include same dopants.Type: GrantFiled: February 9, 2021Date of Patent: October 17, 2023Assignee: TAIWAN SEMICONDUCTOR MANUFACTURING CO., LTD.Inventors: Kuo-Ju Chen, Chun-Hsien Huang, Su-Hao Liu, Liang-Yin Chen, Huicheng Chang, Yee-Chia Yeo
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Publication number: 20230317519Abstract: The present disclosure provides methods for forming conductive features in a dielectric layer without using adhesion layers or barrier layers and devices formed thereby. In some embodiments, a structure comprising a dielectric layer over a substrate, and a conductive feature disposed through the dielectric layer. The dielectric layer has a lower surface near the substrate and a top surface distal from the substrate. The conductive feature is in direct contact with the dielectric layer, and the dielectric layer comprises an implant species. A concentration of the implant species in the dielectric layer has a peak concentration proximate the top surface of the dielectric layer, and the concentration of the implant species decreases from the peak concentration in a direction towards the lower surface of the dielectric layer.Type: ApplicationFiled: June 7, 2023Publication date: October 5, 2023Inventors: Li-Chieh Wu, Tang-Kuei Chang, Kuo-Hsiu Wei, Kei-Wei Chen, Ying-Lang Wang, Su-Hao Liu, Kuo-Ju Chen, Liang-Yin Chen, Huicheng Chang, Ting-Kui Chang, Chia Hsuan Lee
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Publication number: 20230282706Abstract: In an embodiment, a device includes: a gate structure on a channel region of a substrate; a gate mask on the gate structure, the gate mask including a first dielectric material and an impurity, a concentration of the impurity in the gate mask decreasing in a direction extending from an upper region of the gate mask to a lower region of the gate mask; a gate spacer on sidewalls of the gate mask and the gate structure, the gate spacer including the first dielectric material and the impurity, a concentration of the impurity in the gate spacer decreasing in a direction extending from an upper region of the gate spacer to a lower region of the gate spacer; and a source/drain region adjoining the gate spacer and the channel region.Type: ApplicationFiled: May 15, 2023Publication date: September 7, 2023Inventors: Wei-Ting Chien, Wen-Yen Chen, Li-Ting Wang, Su-Hao Liu, Liang-Yin Chen, Huicheng Chang
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Publication number: 20230282583Abstract: A semiconductor device includes a first dielectric layer disposed over a substrate and a conductive feature, a doped dielectric layer disposed over the first dielectric layer, a first metal portion disposed in the first dielectric layer and in contact with the conductive feature, and a doped metal portion disposed over the first metal portion. The first metal portion and the doped metal portion include a same noble metal material. The doped dielectric layer and the doped metal portion include same dopants. The dopants are bonded to the noble metal material.Type: ApplicationFiled: April 18, 2023Publication date: September 7, 2023Inventors: Kuo-Ju Chen, Chun-Hsien Huang, Su-Hao Liu, Liang-Yin Chen, Huicheng Chang, Yee-Chia Yeo
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Patent number: 11742210Abstract: The present disclosure provides a method to enlarge the process window for forming a source/drain contact. The method may include receiving a workpiece that includes a source/drain feature exposed in a source/drain opening defined between two gate structures, conformally depositing a dielectric layer over sidewalls of the source/drain opening and a top surface of the source/drain feature, anisotropically etching the dielectric layer to expose the source/drain feature, performing an implantation process to the dielectric layer, and after the performing of the implantation process, performing a pre-clean process to the workpiece. The implantation process includes a non-zero tilt angle.Type: GrantFiled: April 15, 2021Date of Patent: August 29, 2023Assignee: TAIWAN SEMICONDUCTOR MANUFACTURING CO., LTD.Inventors: Meng-Han Chou, Kuan-Yu Yeh, Wei-Yip Loh, Hung-Hsu Chen, Su-Hao Liu, Liang-Yin Chen, Huicheng Chang, Yee-Chia Yeo
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Patent number: 11742386Abstract: The present disclosure relates generally to doping for conductive features in a semiconductor device. In an example, a structure includes an active region of a transistor. The active region includes a source/drain region, and the source/drain region is defined at least in part by a first dopant having a first dopant concentration. The source/drain region further includes a second dopant with a concentration profile having a consistent concentration from a surface of the source/drain region into a depth of the source/drain region. The consistent concentration is greater than the first dopant concentration. The structure further includes a conductive feature contacting the source/drain region at the surface of the source/drain region.Type: GrantFiled: July 25, 2022Date of Patent: August 29, 2023Assignee: TAIWAN SEMICONDUCTOR MANUFACTURING CO., LTD.Inventors: Su-Hao Liu, Huicheng Chang, Chia-Cheng Chen, Liang-Yin Chen, Kuo-Ju Chen, Chun-Hung Wu, Chang-Miao Liu, Huai-Tei Yang, Lun-Kuang Tan, Wei-Ming You
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Publication number: 20230268423Abstract: A method of forming a semiconductor device includes forming a first dummy gate structure over a first region of a substrate and a second dummy gate structure over a second region of the substrate, the first region and the second region of the substrate having a first composition, the first composition having a first etch rate; implanting the first region of the substrate with dopants laterally adjacent to the first dummy gate structure, wherein after the implanting the first region, the first region has a second composition having a second etch rate, the second etch rate being different from the first etch rate; etching a first recess in the first region of the substrate having the second composition and a second recess in the second region having the first composition; and epitaxially growing a first source/drain region in the first recess and a second source/drain region in the second recess.Type: ApplicationFiled: February 21, 2022Publication date: August 24, 2023Inventors: Tien-Shun Chang, Kuo-Ju Chen, Su-Hao Liu, Huicheng Chang, Yee-Chia Yeo
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Publication number: 20230268442Abstract: In accordance with some embodiments, a source/drain contact is formed by exposing a source/drain region through a first dielectric layer and a second dielectric layer. The second dielectric layer is recessed under the first dielectric layer, and a silicide region is formed on the source/drain region, wherein the silicide region has an expanded width.Type: ApplicationFiled: April 18, 2023Publication date: August 24, 2023Inventors: Wei-Ting Chien, Su-Hao Liu, Liang-Yin Chen, Huicheng Chang, Yee-Chia Yeo
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Publication number: 20230261069Abstract: In an embodiment, a device includes: a source/drain region adjacent a channel region; an inter-layer dielectric on the source/drain region; a source/drain contact extending through the inter-layer dielectric and into the source/drain region; a metal-semiconductor alloy region between the source/drain contact and the source/drain region, the metal-semiconductor alloy region disposed beneath a top surface of the channel region, the metal-semiconductor alloy region including a first dopant; and a contact spacer around the source/drain contact, the contact spacer including the first dopant and an amorphizing impurity.Type: ApplicationFiled: May 13, 2022Publication date: August 17, 2023Inventors: Meng-Han Chou, Yi-Syuan Siao, Su-Hao Liu, Huicheng Chang, Yee-Chia Yeo
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Publication number: 20230253243Abstract: A method includes forming a first dielectric layer over a source/drain region, and forming a source/drain contact plug over and electrically connecting to the source/drain region. A top portion of the source/drain contact plug has a first lateral dimension. An implantation process is performed to implant a dopant into the first dielectric layer. The implantation process results in the source/drain contact plug to have a second lateral dimension smaller than the first lateral dimension. The method further includes forming a second dielectric layer over the etch stop layer, and forming a gate contact plug adjacent to the source/drain contact plug.Type: ApplicationFiled: March 27, 2023Publication date: August 10, 2023Inventors: Kuo-Ju Chen, Su-Hao Liu, Liang-Yin Chen, Huicheng Chang, Yee-Chia Yeo, Meng-Han Chou
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Patent number: 11710659Abstract: The present disclosure provides methods for forming conductive features in a dielectric layer without using adhesion layers or barrier layers and devices formed thereby. In some embodiments, a structure comprising a dielectric layer over a substrate, and a conductive feature disposed through the dielectric layer. The dielectric layer has a lower surface near the substrate and a top surface distal from the substrate. The conductive feature is in direct contact with the dielectric layer, and the dielectric layer comprises an implant species. A concentration of the implant species in the dielectric layer has a peak concentration proximate the top surface of the dielectric layer, and the concentration of the implant species decreases from the peak concentration in a direction towards the lower surface of the dielectric layer.Type: GrantFiled: December 27, 2021Date of Patent: July 25, 2023Assignee: TAIWAN SEMICONDUCTOR MANUFACTURING COMPANY, LTD.Inventors: Li-Chieh Wu, Tang-Kuei Chang, Kuo-Hsiu Wei, Kei-Wei Chen, Ying-Lang Wang, Su-Hao Liu, Kuo-Ju Chen, Liang-Yin Chen, Huicheng Chang, Ting-Kui Chang, Chia Hsuan Lee
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Patent number: 11695042Abstract: In an embodiment, a device includes: a gate structure on a channel region of a substrate; a gate mask on the gate structure, the gate mask including a first dielectric material and an impurity, a concentration of the impurity in the gate mask decreasing in a direction extending from an upper region of the gate mask to a lower region of the gate mask; a gate spacer on sidewalls of the gate mask and the gate structure, the gate spacer including the first dielectric material and the impurity, a concentration of the impurity in the gate spacer decreasing in a direction extending from an upper region of the gate spacer to a lower region of the gate spacer; and a source/drain region adjoining the gate spacer and the channel region.Type: GrantFiled: June 10, 2021Date of Patent: July 4, 2023Assignee: TAIWAN SEMICONDUCTOR MANUFACTURING CO., LTD.Inventors: Wei-Ting Chien, Wen-Yen Chen, Li-Ting Wang, Su-Hao Liu, Liang-Yin Chen, Huicheng Chang
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Publication number: 20230197852Abstract: Embodiments disclosed herein relate to using an implantation process and a melting anneal process performed on a nanosecond scale to achieve a high surface concentration (surface pile up) dopant profile and a retrograde dopant profile simultaneously. In an embodiment, a method includes forming a source/drain structure in an active area on a substrate, the source/drain structure including a first region comprising germanium, implanting a first dopant into the first region of the source/drain structure to form an amorphous region in at least the first region of the source/drain structure, implanting a second dopant into the amorphous region containing the first dopant, and heating the source/drain structure to liquidize and convert at least the amorphous region into a crystalline region, the crystalline region containing the first dopant and the second dopant.Type: ApplicationFiled: February 24, 2023Publication date: June 22, 2023Inventors: Su-Hao Liu, Kuo-Ju Chen, Wen-Yen Chen, Ying-Lang Wang, Liang-Yin Chen, Li-Ting Wang, Huicheng Chang
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Patent number: 11652053Abstract: A semiconductor device includes a first dielectric layer disposed over a substrate and a conductive feature, a doped dielectric layer disposed over the first dielectric layer, a first metal portion disposed in the first dielectric layer and in contact with the conductive feature, and a doped metal portion disposed over the first metal portion. The first metal portion and the doped metal portion include a same noble metal material. The doped dielectric layer and the doped metal portion include same dopants. The dopants are bonded to the noble metal material.Type: GrantFiled: February 9, 2021Date of Patent: May 16, 2023Assignee: TAIWAN SEMICONDUCTOR MANUFACTURING CO., LTD.Inventors: Kuo-Ju Chen, Chun-Hsien Huang, Su-Hao Liu, Liang-Yin Chen, Huicheng Chang, Yee-Chia Yeo
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Patent number: 11646377Abstract: In accordance with some embodiments, a source/drain contact is formed by exposing a source/drain region through a first dielectric layer and a second dielectric layer. The second dielectric layer is recessed under the first dielectric layer, and a silicide region is formed on the source/drain region, wherein the silicide region has an expanded width.Type: GrantFiled: April 6, 2021Date of Patent: May 9, 2023Assignee: TAIWAN SEMICONDUCTOR MANUFACTURING CO., LTD.Inventors: Wei-Ting Chien, Su-Hao Liu, Liang-Yin Chen, Huicheng Chang, Yee-Chia Yeo
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Patent number: 11615982Abstract: A method includes forming a first dielectric layer over a source/drain region, and forming a source/drain contact plug over and electrically connecting to the source/drain region. A top portion of the source/drain contact plug has a first lateral dimension. An implantation process is performed to implant a dopant into the first dielectric layer. The implantation process results in the source/drain contact plug to have a second lateral dimension smaller than the first lateral dimension. The method further includes forming a second dielectric layer over the etch stop layer, and forming a gate contact plug adjacent to the source/drain contact plug.Type: GrantFiled: January 15, 2021Date of Patent: March 28, 2023Assignee: TAIWAN SEMICONDUCTOR MANUFACTURING CO., LTD.Inventors: Kuo-Ju Chen, Su-Hao Liu, Liang-Yin Chen, Huicheng Chang, Yee-Chia Yeo, Meng-Han Chou
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Publication number: 20230093608Abstract: A semiconductor structure is provided. The semiconductor structure includes a gate structure over a substrate. The semiconductor structure also includes source/drain structures on opposite sides of the gate structure. The semiconductor structure also includes a dielectric layer over the gate structure and the source/drain structures. The semiconductor structure also includes a via plug passing through the dielectric layer and including a first group IV element. The dielectric layer includes a second group IV element, a first compound, and a second compound, and the second compound includes elements in the first compound and the first group IV element.Type: ApplicationFiled: November 25, 2022Publication date: March 23, 2023Applicant: Taiwan Semiconductor Manufacturing Company, Ltd.Inventors: Tung-Po HSIEH, Su-Hao LIU, Hong-Chih LIU, Jing-Huei HUANG, Jie-Huang HUANG, Lun-Kuang TAN, Huicheng CHANG, Liang-Yin CHEN, Kuo-Ju CHEN
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Patent number: 11594636Abstract: Embodiments disclosed herein relate to using an implantation process and a melting anneal process performed on a nanosecond scale to achieve a high surface concentration (surface pile up) dopant profile and a retrograde dopant profile simultaneously. In an embodiment, a method includes forming a source/drain structure in an active area on a substrate, the source/drain structure including a first region comprising germanium, implanting a first dopant into the first region of the source/drain structure to form an amorphous region in at least the first region of the source/drain structure, implanting a second dopant into the amorphous region containing the first dopant, and heating the source/drain structure to liquidize and convert at least the amorphous region into a crystalline region, the crystalline region containing the first dopant and the second dopant.Type: GrantFiled: February 17, 2022Date of Patent: February 28, 2023Assignee: TAIWAN SEMICONDUCTOR MANUFACTURING COMPANY, LTD.Inventors: Su-Hao Liu, Kuo-Ju Chen, Wen-Yen Chen, Ying-Lang Wang, Liang-Yin Chen, Li-Ting Wang, Huicheng Chang
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Publication number: 20230034803Abstract: A method includes forming a source/drain region, forming a dielectric layer over the source/drain region, and etching the dielectric layer to form a contact opening. The source/drain region is exposed to the contact opening. The method further includes depositing a dielectric spacer layer extending into the contact opening, etching the dielectric spacer layer to form a contact spacer in the contact opening, implanting a dopant into the source/drain region through the contact opening after the dielectric spacer layer is deposited, and forming a contact plug to fill the contact opening.Type: ApplicationFiled: February 8, 2022Publication date: February 2, 2023Inventors: Meng-Han Chou, Yi-Syuan Siao, Su-Hao Liu, Huicheng Chang, Yee-Chia Yeo
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Publication number: 20230016619Abstract: A method includes moving a plurality of sensors along a translation path with respect to an ion beam, acquiring sensor signals produced by the plurality of sensors, converting the acquired sensor signals into a data set representative of a two-dimensional (2D) profile of the ion beam, generating a plurality of first one-dimensional (1D) profiles of the ion beam from the data set, generating a plurality of second 1D profiles of the ion beam by spatially inverting each of the plurality of first 1D profiles, generating a plurality of third 1D profiles of the ion beam by superposing first current density values of each of the plurality of first 1D profiles with second current density values of a corresponding one of the plurality of second 1D profiles and determining whether to continue an implantation process with the ion beam in accordance with the plurality of third 1D profiles.Type: ApplicationFiled: March 2, 2022Publication date: January 19, 2023Inventors: Tien-Shun Chang, Yu-Kang Liu, Su-Hao Liu, Huicheng Chang, Yee-Chia Yeo