Patents by Inventor Feng-Jia Shiu

Feng-Jia Shiu 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).

  • Publication number: 20220359588
    Abstract: A method includes performing a first lithography process using a first pattern of a first photomask to form a first photoresist pattern on a front side of a device substrate; performing a first implantation process using the first pattern as a mask to form first isolation regions in the device substrate; after performing the first implantation process, performing a second lithography process using a second pattern of a second photomask to form a second photoresist pattern on the front side of the device substrate, the second pattern being shifted from the first pattern by a distance less than the first pitch and in the first direction; performing a second implantation process using the second photoresist pattern as a mask to form second isolation regions in the device substrate and spaced apart from the first isolation regions; and forming pixels between the first and second isolation regions.
    Type: Application
    Filed: July 25, 2022
    Publication date: November 10, 2022
    Applicant: TAIWAN SEMICONDUCTOR MANUFACTURING CO., LTD.
    Inventors: Wei-Chao CHIU, Chun-Wei CHANG, Ching-Sen KUO, Feng-Jia SHIU
  • Patent number: 11489115
    Abstract: A method includes providing a substrate having a conductive column, a dielectric layer over the conductive column, and a plurality of sacrificial blocks over the dielectric layer, the plurality of sacrificial blocks surrounding the conductive column from a top view; depositing a sacrificial layer covering the plurality of sacrificial blocks, the sacrificial layer having a dip directly above the conductive column; depositing a hard mask layer over the sacrificial layer; removing a portion of the hard mask layer from a bottom of the dip; etching the bottom of the dip using the hard mask layer as an etching mask, thereby exposing a top surface of the conductive column; and forming a conductive material inside the dip, the conductive material being in physical contact with the top surface of the conductive column.
    Type: Grant
    Filed: May 3, 2021
    Date of Patent: November 1, 2022
    Assignee: TAIWAN SEMICONDUCTOR MANUFACTURING CO., LTD.
    Inventors: Wei-Chieh Huang, Jieh-Jang Chen, Feng-Jia Shiu, Chern-Yow Hsu
  • Publication number: 20220301849
    Abstract: Embodiments are directed to a method for minimizing electrostatic charges in a semiconductor substrate. The method includes depositing photoresist on a semiconductor substrate to form a photoresist layer on the semiconductor substrate. The photoresist layer is exposed to radiation. The photoresist layer is developed using a developer solution. The semiconductor substrate is cleaned with a first cleaning liquid to wash the developer solution from the photoresist layer. A tetramethylammonium hydroxide (TMAH) solution is applied to the semiconductor substrate to reduce charges accumulated in the semiconductor substrate.
    Type: Application
    Filed: March 19, 2021
    Publication date: September 22, 2022
    Inventors: Wei-Lin CHANG, Chih-Chien WANG, Chihy-Yuan CHENG, Sz-Fan CHEN, Chien-Hung LIN, Chun-Chang CHEN, Ching-Sen KUO, Feng-Jia SHIU
  • Publication number: 20220285203
    Abstract: Double patterning techniques described herein may reduce corner rounding, etch loading, and/or other defects that might otherwise arise during formation of a deep trench isolation (DTI) structure in a pixel array. The double patterning techniques include forming a first set of trenches in a first direction and forming a second set of trenches in a second direction in a plurality of patterning operations such that minimal to no etch loading and/or corner rounding is present at and/or near the intersections of the first set of trenches and the second set of trenches.
    Type: Application
    Filed: June 1, 2021
    Publication date: September 8, 2022
    Inventors: Wei-Chao CHIU, Yu-Wen CHEN, Yong-Jin LIOU, Chun-Wei CHANG, Ching-Sen KUO, Feng-Jia SHIU
  • Publication number: 20220285155
    Abstract: Implantation mask formation techniques described herein include increasing an initial aspect ratio of a pattern in an implantation mask by non-lithography techniques, which may include forming a resist hardening layer on the implantation mask. The pattern may be formed by photolithography techniques to the initial aspect ratio that reduces or minimizes the likelihood of pattern collapse during formation of the pattern. Then, the resist hardening layer is formed on the implantation mask to increase the height of the pattern and reduce the width of the pattern, which increases the aspect ratio between the height of the openings or trenches and the width of the openings or trenches of the pattern. In this way, the pattern in the implantation mask may be formed to an ultra-high aspect ratio in a manner that reduces or minimizes the likelihood of pattern collapse during formation of the pattern.
    Type: Application
    Filed: June 1, 2021
    Publication date: September 8, 2022
    Inventors: Wei-Chao CHIU, Yong-Jin LIOU, Yu-Wen CHEN, Chun-Wei CHANG, Ching-Sen KUO, Feng-Jia SHIU
  • Patent number: 11411033
    Abstract: A method includes forming a first photoresist layer on a front side of a device substrate and having first trenches spaced apart from each other. A first implantation process is performed using the first photoresist layer as a mask to form first isolation regions in the device substrate. A second photoresist layer is formed on the front side and has second trenches. A second implantation process is performed using the second photoresist layer as a mask to form second isolation regions in the device substrate and crossing over the first isolation regions. A third photoresist layer is formed on the front side and has third trenches spaced apart from each other. A third implantation process is performed using the third photoresist layer as a mask to form third isolation regions in the device substrate and crossing over the first isolation regions but spaced apart from the second isolation regions.
    Type: Grant
    Filed: March 13, 2020
    Date of Patent: August 9, 2022
    Assignee: TAIWAN SEMICONDUCTOR MANUFACTURING CO., LTD.
    Inventors: Wei-Chao Chiu, Chun-Wei Chang, Ching-Sen Kuo, Feng-Jia Shiu
  • Publication number: 20220199636
    Abstract: A wafer having a first region and a second region is provided. A first topography variation exists between the first region and the second region. A first layer is formed over the first region and over the second region of the wafer. The first layer is patterned. A patterned first layer causes a second topography variation to exist between the first region and the second region. The second topography variation is smoother than the first topography variation. A second layer is formed over the first region and the second region. At least a portion of the second layer is formed over the patterned first layer.
    Type: Application
    Filed: March 14, 2022
    Publication date: June 23, 2022
    Inventors: Chun-Chang Wu, Chihy-Yuan Cheng, Sz-Fan Chen, Shun-Shing Yang, Wei-Lin Chang, Ching-Sen Kuo, Feng-Jia Shiu, Chun-Chang Chen
  • Patent number: 11276699
    Abstract: A wafer having a first region and a second region is provided. A first topography variation exists between the first region and the second region. A first layer is formed over the first region and over the second region of the wafer. The first layer is patterned. A patterned first layer causes a second topography variation to exist between the first region and the second region. The second topography variation is smoother than the first topography variation. A second layer is formed over the first region and the second region. At least a portion of the second layer is formed over the patterned first layer.
    Type: Grant
    Filed: December 19, 2019
    Date of Patent: March 15, 2022
    Assignee: TAIWAN SEMICONDUCTOR MANUFACTURING CO., LTD.
    Inventors: Chun-Chang Wu, Chihy-Yuan Cheng, Sz-Fan Chen, Shun-Shing Yang, Wei-Lin Chang, Ching-Sen Kuo, Feng-Jia Shiu, Chun-Chang Chen
  • Publication number: 20210327820
    Abstract: In a method of manufacturing a semiconductor device, a first interlayer dielectric (ILD) layer is formed over a substrate, a CMP stop layer is formed over the first ILD layer, a trench opening is formed by patterning the CMP stop layer and the first ILD layer, an underlying first process mark is formed by forming a first conductive layer in the trench opening, a lower dielectric layer is formed over the underlying first process mark, a middle dielectric layer is formed over the lower dielectric layer, an upper dielectric layer is formed over the middle dielectric layer, a planarization operation is performed on the upper, middle and lower dielectric layers so that a part of the middle dielectric layer remains over the underlying first process mark, and a second process mark by the lower dielectric layer is formed by removing the remaining part of the middle dielectric layer.
    Type: Application
    Filed: June 30, 2021
    Publication date: October 21, 2021
    Inventors: Ying-Hua CHEN, Feng-Jia SHIU, Wen-Chen LU
  • Publication number: 20210327748
    Abstract: In a method of manufacturing a semiconductor device, a first interlayer dielectric (ILD) layer is formed over a substrate, a chemical mechanical polishing (CMP) stop layer is formed over the first ILD layer, a trench is formed by patterning the CMP stop layer and the first ILD layer, a metal layer is formed over the CMP stop layer and in the trench, a sacrificial layer is formed over the metal layer, a CMP operation is performed on the sacrificial layer and the metal layer to remove a portion of the metal layer over the CMP stop layer, and a remaining portion of the sacrificial layer over the trench is removed.
    Type: Application
    Filed: June 28, 2021
    Publication date: October 21, 2021
    Inventors: Tsai-Ming HUANG, Wei-Chieh HUANG, Hsun-Chung KUANG, Yen-Chang CHU, Cheng-Che CHUNG, Chin-Wei LIANG, Ching-Sen KUO, Jieh-Jang CHEN, Feng-Jia SHIU, Sheng-Chau CHEN
  • Publication number: 20210280620
    Abstract: In some embodiments, a pixel sensor is provided. The pixel sensor includes a first photodetector arranged in a semiconductor substrate. A second photodetector is arranged in the semiconductor substrate, where a first substantially straight line axis intersects a center point of the first photodetector and a center point of the second photodetector. A floating diffusion node is arranged in the semiconductor substrate at a point that is a substantially equal distance from the first photodetector and the second photodetector. A pick-up well contact region is arranged in the semiconductor substrate, where a second substantially straight line axis that is substantially perpendicular to the first substantially straight line axis intersects a center point of the floating diffusion node and a center point of the pick-up well contact region.
    Type: Application
    Filed: May 5, 2021
    Publication date: September 9, 2021
    Inventors: Seiji Takahashi, Chen-Jong Wang, Dun-Nian Yaung, Feng-Chi Hung, Feng-Jia Shiu, Jen-Cheng Liu, Jhy-Jyi Sze, Chun-Wei Chang, Wei-Cheng Hsu, Wei Chuang Wu, Yimin Huang
  • Publication number: 20210257548
    Abstract: A method includes providing a substrate having a conductive column, a dielectric layer over the conductive column, and a plurality of sacrificial blocks over the dielectric layer, the plurality of sacrificial blocks surrounding the conductive column from a top view; depositing a sacrificial layer covering the plurality of sacrificial blocks, the sacrificial layer having a dip directly above the conductive column; depositing a hard mask layer over the sacrificial layer; removing a portion of the hard mask layer from a bottom of the dip; etching the bottom of the dip using the hard mask layer as an etching mask, thereby exposing a top surface of the conductive column; and forming a conductive material inside the dip, the conductive material being in physical contact with the top surface of the conductive column.
    Type: Application
    Filed: May 3, 2021
    Publication date: August 19, 2021
    Inventors: Wei-Chieh Huang, Jieh-Jang Chen, Feng-Jia Shiu, Chern-Yow Hsu
  • Patent number: 11086221
    Abstract: A first photoresist pattern and a second photoresist pattern are formed over a substrate. The first photoresist pattern is separated from the second photoresist pattern by a gap. A chemical mixture is coated on the first and second photoresist patterns. The chemical mixture contains a chemical material and surfactant particles mixed into the chemical material. The chemical mixture fills the gap. A baking process is performed on the first and second photoresist patterns, the baking process causing the gap to shrink. At least some surfactant particles are disposed at sidewall boundaries of the gap. A developing process is performed on the first and second photoresist patterns. The developing process removes the chemical mixture in the gap and over the photoresist patterns. The surfactant particles disposed at sidewall boundaries of the gap reduce a capillary effect during the developing process.
    Type: Grant
    Filed: August 3, 2020
    Date of Patent: August 10, 2021
    Assignee: TAIWAN SEMICONDUCTOR MANUFACTURING CO., LTD.
    Inventors: Wei-Chao Chiu, Chih-Chien Wang, Feng-Jia Shiu, Ching-Sen Kuo, Chun-Wei Chang, Kai Tzeng
  • Patent number: 11056440
    Abstract: In a method of manufacturing a semiconductor device, a first interlayer dielectric (ILD) layer is formed over a substrate, a CMP stop layer is formed over the first ILD layer, a trench opening is formed by patterning the CMP stop layer and the first ILD layer, an underlying first process mark is formed by forming a first conductive layer in the trench opening, a lower dielectric layer is formed over the underlying first process mark, a middle dielectric layer is formed over the lower dielectric layer, an upper dielectric layer is formed over the middle dielectric layer, a planarization operation is performed on the upper, middle and lower dielectric layers so that a part of the middle dielectric layer remains over the underlying first process mark, and a second process mark by the lower dielectric layer is formed by removing the remaining part of the middle dielectric layer.
    Type: Grant
    Filed: October 3, 2019
    Date of Patent: July 6, 2021
    Assignee: TAIWAN SEMICONDUCTOR MANUFACTURING CO., LTD.
    Inventors: Ying-Hua Chen, Feng-Jia Shiu, Wen-Chen Lu
  • Patent number: 11049767
    Abstract: In a method of manufacturing a semiconductor device, a first interlayer dielectric (ILD) layer is formed over a substrate, a chemical mechanical polishing (CMP) stop layer is formed over the first ILD layer, a trench is formed by patterning the CMP stop layer and the first ILD layer, a metal layer is formed over the CMP stop layer and in the trench, a sacrificial layer is formed over the metal layer, a CMP operation is performed on the sacrificial layer and the metal layer to remove a portion of the metal layer over the CMP stop layer, and a remaining portion of the sacrificial layer over the trench is removed.
    Type: Grant
    Filed: September 26, 2019
    Date of Patent: June 29, 2021
    Assignee: TAIWAN SEMICONDUCTOR MANUFACTURING CO., LTD.
    Inventors: Tsai-Ming Huang, Wei-Chieh Huang, Hsun-Chung Kuang, Yen-Chang Chu, Cheng-Che Chung, Chin-Wei Liang, Ching-Sen Kuo, Jieh-Jang Chen, Feng-Jia Shiu, Sheng-Chau Chen
  • Publication number: 20210193705
    Abstract: A method includes forming a first photoresist layer on a front side of a device substrate and having first trenches spaced apart from each other. A first implantation process is performed using the first photoresist layer as a mask to form first isolation regions in the device substrate. A second photoresist layer is formed on the front side and has second trenches. A second implantation process is performed using the second photoresist layer as a mask to form second isolation regions in the device substrate and crossing over the first isolation regions. A third photoresist layer is formed on the front side and has third trenches spaced apart from each other. A third implantation process is performed using the third photoresist layer as a mask to form third isolation regions in the device substrate and crossing over the first isolation regions but spaced apart from the second isolation regions.
    Type: Application
    Filed: March 13, 2020
    Publication date: June 24, 2021
    Applicant: TAIWAN SEMICONDUCTOR MANUFACTURING CO., LTD.
    Inventors: Wei-Chao CHIU, Chun-Wei CHANG, Ching-Sen KUO, Feng-Jia SHIU
  • Patent number: 11004880
    Abstract: In some embodiments, a pixel sensor is provided. The pixel sensor includes a first photodetector arranged in a semiconductor substrate. A second photodetector is arranged in the semiconductor substrate, where a first substantially straight line axis intersects a center point of the first photodetector and a center point of the second photodetector. A floating diffusion node is arranged in the semiconductor substrate at a point that is a substantially equal distance from the first photodetector and the second photodetector. A pick-up well contact region is arranged in the semiconductor substrate, where a second substantially straight line axis that is substantially perpendicular to the first substantially straight line axis intersects a center point of the floating diffusion node and a center point of the pick-up well contact region.
    Type: Grant
    Filed: September 16, 2020
    Date of Patent: May 11, 2021
    Assignee: Taiwan Semiconductor Manufacturing Co., Ltd.
    Inventors: Seiji Takahashi, Chen-Jong Wang, Dun-Nian Yaung, Feng-Chi Hung, Feng-Jia Shiu, Jen-Cheng Liu, Jhy-Jyi Sze, Chun-Wei Chang, Wei-Cheng Hsu, Wei Chuang Wu, Yimin Huang
  • Patent number: 10998498
    Abstract: A method includes providing a substrate having a conductive column, a dielectric layer over the conductive column, and a plurality of sacrificial blocks over the dielectric layer, the plurality of sacrificial blocks surrounding the conductive column from a top view; depositing a sacrificial layer covering the plurality of sacrificial blocks, the sacrificial layer having a dip directly above the conductive column; depositing a hard mask layer over the sacrificial layer; removing a portion of the hard mask layer from a bottom of the dip; etching the bottom of the dip using the hard mask layer as an etching mask, thereby exposing a top surface of the conductive column; and forming a conductive material inside the dip, the conductive material being in physical contact with the top surface of the conductive column.
    Type: Grant
    Filed: October 7, 2019
    Date of Patent: May 4, 2021
    Assignee: TAIWAN SEMICONDUCTOR MANUFACTURING CO., LTD.
    Inventors: Wei-Chieh Huang, Jieh-Jang Chen, Feng-Jia Shiu, Chern-Yow Hsu
  • Patent number: 10943783
    Abstract: In a method of manufacturing a semiconductor device, a first layer having an opening is formed over a substrate. A second layer is formed over the first layer and the substrate. A photo resist pattern is formed over the second layer above the opening of the first layer. The photo resist pattern is reflowed by a thermal process. An etch-back operation is performed to planarize the second layer.
    Type: Grant
    Filed: May 30, 2019
    Date of Patent: March 9, 2021
    Assignee: TAIWAN SEMICONDUCTOR MANUFACTURING CO., LTD.
    Inventors: Cheng-Che Chung, Yi Jen Tsai, Ching-Sen Kuo, Tsai-Ming Huang, Jieh-Jang Chen, Feng-Jia Shiu
  • Patent number: 10910260
    Abstract: A method for manufacturing a semiconductor device includes forming a structure protruding from a substrate, forming a dielectric layer covering the structure, forming a dummy layer covering the dielectric layer, and performing a planarization process to completely remove the dummy layer. A material of the dummy layer has a slower removal rate to the planarization process than a material of the dielectric layer.
    Type: Grant
    Filed: October 25, 2019
    Date of Patent: February 2, 2021
    Assignee: TAIWAN SEMICONDUCTOR MANUFACTURING CO., LTD.
    Inventors: Wei-Chieh Huang, Chin-Wei Liang, Feng-Jia Shiu, Hsia-Wei Chen, Jieh-Jang Chen, Ching-Sen Kuo