Junctionless Nanosheet (3 nm) Poly-Si TFT: Electrical Characteristics and Superior Positive Gate Bias Stress Reliability

Jer Yi Lin; Malkundi Puttaveerappa Vijay Kumar; Tien-Sheng Chao

doi:10.1109/LED.2017.2779451

Junctionless Nanosheet (3 nm) Poly-Si TFT: Electrical Characteristics and Superior Positive Gate Bias Stress Reliability

Jer Yi Lin, Malkundi Puttaveerappa Vijay Kumar, Tien-Sheng Chao^*

^*Corresponding author for this work

Department of Electrophysics

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

21 Scopus citations

Abstract

In this letter, a junctionless (JL) poly-Si thin-film transistor (TFT) with a 3-nm-thick nanosheet channel is successfully fabricated using the low-temperature atomic level etching process. An inversion-mode (IM) TFT is also prepared for performance comparison and reliability investigation of positive gate bias stress (PGBS). In comparison with the IM-TFT, the JL-TFT exhibits superior PGBS reliability. The origin of the difference in degradation rates between the JL and IM-TFTs is ascribed to the different transport mechanisms and different gate dielectric fields under the same gate over-drive stress. Nanosheet JL-TFTs with a 3-nm channel thickness show excellent S.S (69 mV/decade) and extremely low off-current (1.93 fA). Results indicate that it is a promising candidate for low-power 3-D integrated circuits.

Original language	English
Article number	8126800
Pages (from-to)	8-11
Number of pages	4
Journal	Ieee Electron Device Letters
Volume	39
Issue number	1
DOIs	https://doi.org/10.1109/LED.2017.2779451
State	Published - Jan 2018

Keywords

Junctionless (JL)
inversion mode (IM)
nanosheet
positive gate bias stress (PGBS)
thin-film transistor (TFT)

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10.1109/LED.2017.2779451

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title = "Junctionless Nanosheet (3 nm) Poly-Si TFT: Electrical Characteristics and Superior Positive Gate Bias Stress Reliability",

abstract = "In this letter, a junctionless (JL) poly-Si thin-film transistor (TFT) with a 3-nm-thick nanosheet channel is successfully fabricated using the low-temperature atomic level etching process. An inversion-mode (IM) TFT is also prepared for performance comparison and reliability investigation of positive gate bias stress (PGBS). In comparison with the IM-TFT, the JL-TFT exhibits superior PGBS reliability. The origin of the difference in degradation rates between the JL and IM-TFTs is ascribed to the different transport mechanisms and different gate dielectric fields under the same gate over-drive stress. Nanosheet JL-TFTs with a 3-nm channel thickness show excellent S.S (69 mV/decade) and extremely low off-current (1.93 fA). Results indicate that it is a promising candidate for low-power 3-D integrated circuits.",

keywords = "Junctionless (JL), inversion mode (IM), nanosheet, positive gate bias stress (PGBS), thin-film transistor (TFT)",

author = "Lin, {Jer Yi} and Kumar, {Malkundi Puttaveerappa Vijay} and Tien-Sheng Chao",

note = "Publisher Copyright: {\textcopyright} 2017 IEEE.",

year = "2018",

month = jan,

doi = "10.1109/LED.2017.2779451",

language = "English",

volume = "39",

pages = "8--11",

journal = "Ieee Electron Device Letters",

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T1 - Junctionless Nanosheet (3 nm) Poly-Si TFT

T2 - Electrical Characteristics and Superior Positive Gate Bias Stress Reliability

AU - Lin, Jer Yi

AU - Kumar, Malkundi Puttaveerappa Vijay

AU - Chao, Tien-Sheng

PY - 2018/1

Y1 - 2018/1

N2 - In this letter, a junctionless (JL) poly-Si thin-film transistor (TFT) with a 3-nm-thick nanosheet channel is successfully fabricated using the low-temperature atomic level etching process. An inversion-mode (IM) TFT is also prepared for performance comparison and reliability investigation of positive gate bias stress (PGBS). In comparison with the IM-TFT, the JL-TFT exhibits superior PGBS reliability. The origin of the difference in degradation rates between the JL and IM-TFTs is ascribed to the different transport mechanisms and different gate dielectric fields under the same gate over-drive stress. Nanosheet JL-TFTs with a 3-nm channel thickness show excellent S.S (69 mV/decade) and extremely low off-current (1.93 fA). Results indicate that it is a promising candidate for low-power 3-D integrated circuits.

AB - In this letter, a junctionless (JL) poly-Si thin-film transistor (TFT) with a 3-nm-thick nanosheet channel is successfully fabricated using the low-temperature atomic level etching process. An inversion-mode (IM) TFT is also prepared for performance comparison and reliability investigation of positive gate bias stress (PGBS). In comparison with the IM-TFT, the JL-TFT exhibits superior PGBS reliability. The origin of the difference in degradation rates between the JL and IM-TFTs is ascribed to the different transport mechanisms and different gate dielectric fields under the same gate over-drive stress. Nanosheet JL-TFTs with a 3-nm channel thickness show excellent S.S (69 mV/decade) and extremely low off-current (1.93 fA). Results indicate that it is a promising candidate for low-power 3-D integrated circuits.

KW - Junctionless (JL)

KW - inversion mode (IM)

KW - nanosheet

KW - positive gate bias stress (PGBS)

KW - thin-film transistor (TFT)

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DO - 10.1109/LED.2017.2779451

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SP - 8

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JO - Ieee Electron Device Letters

JF - Ieee Electron Device Letters

IS - 1

M1 - 8126800

ER -

Junctionless Nanosheet (3 nm) Poly-Si TFT: Electrical Characteristics and Superior Positive Gate Bias Stress Reliability

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Keywords

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