High capacitance density highly reliable textured deep trench SiN capacitors toward 3D integration

Koga Saito; Ayano Yoshida; Rihito Kuroda; Hiroshi Shibata; Taku Shibaguchi; Naoya Kuriyama; Shigetoshi Sugawa

doi:10.35848/1347-4065/abec5f

High capacitance density highly reliable textured deep trench SiN capacitors toward 3D integration

Koga Saito, Ayano Yoshida, Rihito Kuroda, Hiroshi Shibata, Taku Shibaguchi, Naoya Kuriyama, Shigetoshi Sugawa

New Industry Creation Hatchery Center (NICHe)

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

We developed high capacitance density and highly reliable Si deep trench capacitors with textured surface and SiN dielectric film. The developed capacitor consists of parallel unit cells with 14.3 μm depth textured surface trench capacitors, using Si wafer process compatible to 3D integration, realizing high scalability and versatility. Various fabrication conditions were experimented with to optimize the electrical characteristics. As a result, over 230 fF μm-2 capacitance density and 9.0 V breakdown voltage were achieved. Regarding reliability, it has been confirmed that SiN dielectric film leads to below 10-9 A cm-2 leakage current density at 1 V and the predicted lifetime of over 50 years at 3.3 V. For low voltage applications, higher capacitance density is available by using thinner SiN dielectric films.

Original language	English
Article number	SBBC06
Journal	Japanese Journal of Applied Physics
Volume	60
Issue number	SB
DOIs	https://doi.org/10.35848/1347-4065/abec5f
Publication status	Published - 2021 May

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title = "High capacitance density highly reliable textured deep trench SiN capacitors toward 3D integration",

abstract = "We developed high capacitance density and highly reliable Si deep trench capacitors with textured surface and SiN dielectric film. The developed capacitor consists of parallel unit cells with 14.3 μm depth textured surface trench capacitors, using Si wafer process compatible to 3D integration, realizing high scalability and versatility. Various fabrication conditions were experimented with to optimize the electrical characteristics. As a result, over 230 fF μm-2 capacitance density and 9.0 V breakdown voltage were achieved. Regarding reliability, it has been confirmed that SiN dielectric film leads to below 10-9 A cm-2 leakage current density at 1 V and the predicted lifetime of over 50 years at 3.3 V. For low voltage applications, higher capacitance density is available by using thinner SiN dielectric films.",

author = "Koga Saito and Ayano Yoshida and Rihito Kuroda and Hiroshi Shibata and Taku Shibaguchi and Naoya Kuriyama and Shigetoshi Sugawa",

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doi = "10.35848/1347-4065/abec5f",

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T1 - High capacitance density highly reliable textured deep trench SiN capacitors toward 3D integration

AU - Saito, Koga

AU - Yoshida, Ayano

AU - Kuroda, Rihito

AU - Shibata, Hiroshi

AU - Shibaguchi, Taku

AU - Kuriyama, Naoya

AU - Sugawa, Shigetoshi

PY - 2021/5

Y1 - 2021/5

N2 - We developed high capacitance density and highly reliable Si deep trench capacitors with textured surface and SiN dielectric film. The developed capacitor consists of parallel unit cells with 14.3 μm depth textured surface trench capacitors, using Si wafer process compatible to 3D integration, realizing high scalability and versatility. Various fabrication conditions were experimented with to optimize the electrical characteristics. As a result, over 230 fF μm-2 capacitance density and 9.0 V breakdown voltage were achieved. Regarding reliability, it has been confirmed that SiN dielectric film leads to below 10-9 A cm-2 leakage current density at 1 V and the predicted lifetime of over 50 years at 3.3 V. For low voltage applications, higher capacitance density is available by using thinner SiN dielectric films.

AB - We developed high capacitance density and highly reliable Si deep trench capacitors with textured surface and SiN dielectric film. The developed capacitor consists of parallel unit cells with 14.3 μm depth textured surface trench capacitors, using Si wafer process compatible to 3D integration, realizing high scalability and versatility. Various fabrication conditions were experimented with to optimize the electrical characteristics. As a result, over 230 fF μm-2 capacitance density and 9.0 V breakdown voltage were achieved. Regarding reliability, it has been confirmed that SiN dielectric film leads to below 10-9 A cm-2 leakage current density at 1 V and the predicted lifetime of over 50 years at 3.3 V. For low voltage applications, higher capacitance density is available by using thinner SiN dielectric films.

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High capacitance density highly reliable textured deep trench SiN capacitors toward 3D integration

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