Silicon Wafer Gettering Design for Advanced CMOS Image Sensors Using Hydrocarbon Molecular Ion Implantation: A Review

Kazunari Kurita; Takeshi Kadono; Ryosuke Okuyama; Ayumi Onaka-Masada; Satoshi Shigematsu; Ryo Hirose; Koji Kobayashi; Akihiro Suzuki; Hidehiko Okuda; Yoshihiro Koga

doi:10.1109/JEDS.2021.3135656

IEEE Journal of the Electron Devices Society (Jan 2022)

Silicon Wafer Gettering Design for Advanced CMOS Image Sensors Using Hydrocarbon Molecular Ion Implantation: A Review

Kazunari Kurita,
Takeshi Kadono,
Ryosuke Okuyama,
Ayumi Onaka-Masada,
Satoshi Shigematsu,
Ryo Hirose,
Koji Kobayashi,
Akihiro Suzuki,
Hidehiko Okuda,
Yoshihiro Koga

Affiliations

Kazunari Kurita: ORCiD; Technology Division, SUMCO Corporation, Imari, Japan
Takeshi Kadono: ORCiD; Advanced Evaluation & Technology Section, SUMCO Corporation, Imari, Japan
Ryosuke Okuyama: ORCiD; Advanced Evaluation & Technology Section, SUMCO Corporation, Imari, Japan
Ayumi Onaka-Masada: ORCiD; Advanced Evaluation & Technology Section, SUMCO Corporation, Imari, Japan
Satoshi Shigematsu: ORCiD; Advanced Evaluation & Technology Section, SUMCO Corporation, Imari, Japan
Ryo Hirose: Advanced Evaluation & Technology Section, SUMCO Corporation, Imari, Japan
Koji Kobayashi: Technology Division, SUMCO Corporation, Imari, Japan
Akihiro Suzuki: ORCiD; Technology Division, SUMCO Corporation, Imari, Japan
Hidehiko Okuda: ORCiD; Advanced Evaluation & Technology Section, SUMCO Corporation, Imari, Japan
Yoshihiro Koga: ORCiD; Advanced Evaluation & Technology Section, SUMCO Corporation, Imari, Japan

DOI: https://doi.org/10.1109/JEDS.2021.3135656
Journal volume & issue: Vol. 10
pp. 720 – 727

Abstract

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We have developed silicon epitaxial wafers with high gettering capability using hydrocarbon molecular ion implantation for advanced Complementary Metal-Oxide-Semiconductor (CMOS) image sensors. These wafers have three unique silicon wafer characteristics for improvement of CMOS device electrical parameter such as high metallic impurity gettering, oxygen out-diffusion barrier effects from Czochralski silicon (CZ) substrate and hydrogen passivation effect for interface state defect at Si/SiO2. We demonstrate that double epitaxial growth silicon wafers have an extremely high gettering capability during CMOS device fabrication process. We also found that gettering capability strongly dependence on oxygen impurity amount in hydrocarbon molecular ion implantation projection range. We believe that this novel silicon wafer can drastically contribute to the improvement of CMOS image sensor device performance such as white spot defect and dark current.

Published in IEEE Journal of the Electron Devices Society

ISSN: 2168-6734 (Online)
Publisher: IEEE
Country of publisher: United States
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering
Website: https://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber=6245494

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