Electrical characterization of Si nanowire field-effect transistors with semi gate-around structure suitable for integration

Soshi Sato; Hideyuki Kamimura; Hideaki Arai; Kuniyuki Kakushima; Parhat Ahmet; Kenji Ohmori; Keisaku Yamada; Hiroshi Iwai

doi:10.1016/j.sse.2010.04.022

Electrical characterization of Si nanowire field-effect transistors with semi gate-around structure suitable for integration

Soshi Sato, Hideyuki Kamimura, Hideaki Arai, Kuniyuki Kakushima, Parhat Ahmet, Kenji Ohmori, Keisaku Yamada, Hiroshi Iwai

Center for Innovative Integrated Electronic Systems (CIES)

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

25 Citations (Scopus)

Abstract

Silicon nanowire (Si NW) field-effect transistors with a semi gate-around structure suitable for integration have been fabricated using conventional CMOS processes. With the use of SiO₂ pedestal and SiN sidewall, lithography and etching steps over NW can easily realized. A subthreshold slope (SS) of 71 mV/dec. with I_ON/I_OFF > 10⁵ and a high on-current of 49.6 μA at V_g-V_th = 1.0 V have been obtained with a 25-nm-wide Si NW FET with a gate length and oxide thickness of 200 and 5 nm, respectively. Normalization of the on-current by peripheral length of Si NW FET from 25 to 45 nm in width has revealed comparable current density, which suggests that carriers are formed at the periphery of NW. The effective electron mobility of Si NW FETs has been revealed to be comparable to that of planar FET, indicating negligible process induced damages. The proposed process has a high potential for Si NW FET for large scale integration.

Original language	English
Pages (from-to)	925-928
Number of pages	4
Journal	Solid-State Electronics
Volume	54
Issue number	9
DOIs	https://doi.org/10.1016/j.sse.2010.04.022
Publication status	Published - 2010 Sep

Keywords

Gate-around
On-current
Silicon nanowire
Silicon on insulator

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics
Electrical and Electronic Engineering
Materials Chemistry

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10.1016/j.sse.2010.04.022

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title = "Electrical characterization of Si nanowire field-effect transistors with semi gate-around structure suitable for integration",

abstract = "Silicon nanowire (Si NW) field-effect transistors with a semi gate-around structure suitable for integration have been fabricated using conventional CMOS processes. With the use of SiO2 pedestal and SiN sidewall, lithography and etching steps over NW can easily realized. A subthreshold slope (SS) of 71 mV/dec. with ION/IOFF > 105 and a high on-current of 49.6 μA at Vg-Vth = 1.0 V have been obtained with a 25-nm-wide Si NW FET with a gate length and oxide thickness of 200 and 5 nm, respectively. Normalization of the on-current by peripheral length of Si NW FET from 25 to 45 nm in width has revealed comparable current density, which suggests that carriers are formed at the periphery of NW. The effective electron mobility of Si NW FETs has been revealed to be comparable to that of planar FET, indicating negligible process induced damages. The proposed process has a high potential for Si NW FET for large scale integration.",

keywords = "Gate-around, On-current, Silicon nanowire, Silicon on insulator",

author = "Soshi Sato and Hideyuki Kamimura and Hideaki Arai and Kuniyuki Kakushima and Parhat Ahmet and Kenji Ohmori and Keisaku Yamada and Hiroshi Iwai",

year = "2010",

month = sep,

doi = "10.1016/j.sse.2010.04.022",

language = "English",

volume = "54",

pages = "925--928",

journal = "Solid-State Electronics",

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T1 - Electrical characterization of Si nanowire field-effect transistors with semi gate-around structure suitable for integration

AU - Sato, Soshi

AU - Kamimura, Hideyuki

AU - Arai, Hideaki

AU - Kakushima, Kuniyuki

AU - Ahmet, Parhat

AU - Ohmori, Kenji

AU - Yamada, Keisaku

AU - Iwai, Hiroshi

PY - 2010/9

Y1 - 2010/9

N2 - Silicon nanowire (Si NW) field-effect transistors with a semi gate-around structure suitable for integration have been fabricated using conventional CMOS processes. With the use of SiO2 pedestal and SiN sidewall, lithography and etching steps over NW can easily realized. A subthreshold slope (SS) of 71 mV/dec. with ION/IOFF > 105 and a high on-current of 49.6 μA at Vg-Vth = 1.0 V have been obtained with a 25-nm-wide Si NW FET with a gate length and oxide thickness of 200 and 5 nm, respectively. Normalization of the on-current by peripheral length of Si NW FET from 25 to 45 nm in width has revealed comparable current density, which suggests that carriers are formed at the periphery of NW. The effective electron mobility of Si NW FETs has been revealed to be comparable to that of planar FET, indicating negligible process induced damages. The proposed process has a high potential for Si NW FET for large scale integration.

AB - Silicon nanowire (Si NW) field-effect transistors with a semi gate-around structure suitable for integration have been fabricated using conventional CMOS processes. With the use of SiO2 pedestal and SiN sidewall, lithography and etching steps over NW can easily realized. A subthreshold slope (SS) of 71 mV/dec. with ION/IOFF > 105 and a high on-current of 49.6 μA at Vg-Vth = 1.0 V have been obtained with a 25-nm-wide Si NW FET with a gate length and oxide thickness of 200 and 5 nm, respectively. Normalization of the on-current by peripheral length of Si NW FET from 25 to 45 nm in width has revealed comparable current density, which suggests that carriers are formed at the periphery of NW. The effective electron mobility of Si NW FETs has been revealed to be comparable to that of planar FET, indicating negligible process induced damages. The proposed process has a high potential for Si NW FET for large scale integration.

KW - Gate-around

KW - On-current

KW - Silicon nanowire

KW - Silicon on insulator

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Electrical characterization of Si nanowire field-effect transistors with semi gate-around structure suitable for integration

Abstract

Keywords

ASJC Scopus subject areas

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