High-performance GAA sidewall-damascened sub-10-nm in situ n+-doped poly-Si NWs channels junctionless FETs

Po Yi Kuo; Yi Hsien Lu; Tien-Sheng Chao

doi:10.1109/TED.2014.2354436

High-performance GAA sidewall-damascened sub-10-nm in situ n⁺-doped poly-Si NWs channels junctionless FETs

Po Yi Kuo^*, Yi Hsien Lu, Tien-Sheng Chao

^*Corresponding author for this work

Department of Electrophysics

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

25 Scopus citations

Abstract

The gate-all-around sidewall-damascened sub-10-nm in situ n⁺-doped poly-Si nanowires channels junctionless FETs (GAA SWDNW-JLFETs) with one NW of sub-50-nm² cross-sectional area have been successfully fabricated and demonstrated in the category of poly-Si NWs JL transistors for the first time. Some key properties are explored: 1) novel SWDNW processes; 2) dependence of threshold voltage (V_TH) and subthreshold swing (S.S.) on dimension of in situ n⁺-doped poly-Si NWs in GAA SWDNW-JLFETs; and 3) thermal stability of main electrical characteristics under high operating temperature. The high-performance GAA SWDNW-JLFETs show good electrical characteristics: 1) steep S.S. ∼ 75 mV/decade; 2) low gate supply voltage (V_G) = 1.5 V; 3) high ON/OFF currents ratio (I_ON/ I_OFF) ∼ 8 × 10⁷) and significantly high-thermal stability without implantation processes and hydrogen-related plasma treatments for future 3-D integrated circuits, system-on-panel, and system-on-chip applications.

Original language	English
Article number	6897955
Pages (from-to)	3821-3826
Number of pages	6
Journal	IEEE Transactions on Electron Devices
Volume	61
Issue number	11
DOIs	https://doi.org/10.1109/TED.2014.2354436
State	Published - 1 Nov 2014

Keywords

Gate-all-around (GAA)
junctionless (JL)
sidewall-damascened nanowires (SWDNWs)

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10.1109/TED.2014.2354436

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title = "High-performance GAA sidewall-damascened sub-10-nm in situ n+-doped poly-Si NWs channels junctionless FETs",

abstract = "The gate-all-around sidewall-damascened sub-10-nm in situ n+-doped poly-Si nanowires channels junctionless FETs (GAA SWDNW-JLFETs) with one NW of sub-50-nm2 cross-sectional area have been successfully fabricated and demonstrated in the category of poly-Si NWs JL transistors for the first time. Some key properties are explored: 1) novel SWDNW processes; 2) dependence of threshold voltage (VTH) and subthreshold swing (S.S.) on dimension of in situ n+-doped poly-Si NWs in GAA SWDNW-JLFETs; and 3) thermal stability of main electrical characteristics under high operating temperature. The high-performance GAA SWDNW-JLFETs show good electrical characteristics: 1) steep S.S. ∼ 75 mV/decade; 2) low gate supply voltage (VG) = 1.5 V; 3) high ON/OFF currents ratio (ION/ IOFF) ∼ 8 × 107) and significantly high-thermal stability without implantation processes and hydrogen-related plasma treatments for future 3-D integrated circuits, system-on-panel, and system-on-chip applications.",

keywords = "Gate-all-around (GAA), junctionless (JL), sidewall-damascened nanowires (SWDNWs)",

author = "Kuo, {Po Yi} and Lu, {Yi Hsien} and Tien-Sheng Chao",

year = "2014",

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doi = "10.1109/TED.2014.2354436",

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AU - Chao, Tien-Sheng

PY - 2014/11/1

Y1 - 2014/11/1

N2 - The gate-all-around sidewall-damascened sub-10-nm in situ n+-doped poly-Si nanowires channels junctionless FETs (GAA SWDNW-JLFETs) with one NW of sub-50-nm2 cross-sectional area have been successfully fabricated and demonstrated in the category of poly-Si NWs JL transistors for the first time. Some key properties are explored: 1) novel SWDNW processes; 2) dependence of threshold voltage (VTH) and subthreshold swing (S.S.) on dimension of in situ n+-doped poly-Si NWs in GAA SWDNW-JLFETs; and 3) thermal stability of main electrical characteristics under high operating temperature. The high-performance GAA SWDNW-JLFETs show good electrical characteristics: 1) steep S.S. ∼ 75 mV/decade; 2) low gate supply voltage (VG) = 1.5 V; 3) high ON/OFF currents ratio (ION/ IOFF) ∼ 8 × 107) and significantly high-thermal stability without implantation processes and hydrogen-related plasma treatments for future 3-D integrated circuits, system-on-panel, and system-on-chip applications.

AB - The gate-all-around sidewall-damascened sub-10-nm in situ n+-doped poly-Si nanowires channels junctionless FETs (GAA SWDNW-JLFETs) with one NW of sub-50-nm2 cross-sectional area have been successfully fabricated and demonstrated in the category of poly-Si NWs JL transistors for the first time. Some key properties are explored: 1) novel SWDNW processes; 2) dependence of threshold voltage (VTH) and subthreshold swing (S.S.) on dimension of in situ n+-doped poly-Si NWs in GAA SWDNW-JLFETs; and 3) thermal stability of main electrical characteristics under high operating temperature. The high-performance GAA SWDNW-JLFETs show good electrical characteristics: 1) steep S.S. ∼ 75 mV/decade; 2) low gate supply voltage (VG) = 1.5 V; 3) high ON/OFF currents ratio (ION/ IOFF) ∼ 8 × 107) and significantly high-thermal stability without implantation processes and hydrogen-related plasma treatments for future 3-D integrated circuits, system-on-panel, and system-on-chip applications.

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High-performance GAA sidewall-damascened sub-10-nm in situ n⁺-doped poly-Si NWs channels junctionless FETs

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Keywords

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