Scalable monolithically grown AlGaAs-GaAs planar nanowire high-electron-mobility transistor

Xin Miao; Xiuling Li

doi:10.1109/LED.2011.2160248

Scalable monolithically grown AlGaAs-GaAs planar nanowire high-electron-mobility transistor

Xin Miao, Xiuling Li

Electrical and Computer Engineering

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

Abstract

Monolithically grown planar nanowire (NW) high-electron-mobility transistors (NW-HEMTs) are demonstrated using self-aligned 110 GaAs NWs capped with Si-doped Alx_Ga1_-xAs shell as the channel on semi-insulating (100) GaAs substrates. The planar Al_0.35Ga _0.65As-GaAs NW-HEMT with ∼1-μm-long gate exhibits excellent dc characteristics, with extrinsic G_m of ∼ 80 mS/mm and estimated intrinsic G_m of ∼260 mS/mm, where the device width is defined as the entire periphery of the NWs. The I_ONI_off ratio is ∼10⁴ and the threshold is-1.5 V operating in depletion mode. The output current increases linearly with the number of NWs in the channel, while the threshold voltage does not change at all. This indicates excellent uniformity and scalability of the bottom-up-grown NW devices. Compared to field-effect transistors with doped NWs as channels, the structure reported here circumferences the inherent doping nonuniformity issues in NWs grown by the vapor-liquid-solid mechanism, and self-aligned lateral epitaxy nature of our NW structure makes scaling up to NW array-based transistors from the bottom up feasible.

Original language	English (US)
Article number	5955069
Pages (from-to)	1227-1229
Number of pages	3
Journal	IEEE Electron Device Letters
Volume	32
Issue number	9
DOIs	https://doi.org/10.1109/LED.2011.2160248
State	Published - Sep 2011

Keywords

GaAs
high-electron-mobility transistors (HEMTs)
III-V
nanowire
scalability

ASJC Scopus subject areas

Electrical and Electronic Engineering
Electronic, Optical and Magnetic Materials

Online availability

10.1109/LED.2011.2160248

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title = "Scalable monolithically grown AlGaAs-GaAs planar nanowire high-electron-mobility transistor",

abstract = "Monolithically grown planar nanowire (NW) high-electron-mobility transistors (NW-HEMTs) are demonstrated using self-aligned 110 GaAs NWs capped with Si-doped AlxGa1-xAs shell as the channel on semi-insulating (100) GaAs substrates. The planar Al0.35Ga 0.65As-GaAs NW-HEMT with ∼1-μm-long gate exhibits excellent dc characteristics, with extrinsic Gm of ∼ 80 mS/mm and estimated intrinsic Gm of ∼260 mS/mm, where the device width is defined as the entire periphery of the NWs. The IONIoff ratio is ∼104 and the threshold is-1.5 V operating in depletion mode. The output current increases linearly with the number of NWs in the channel, while the threshold voltage does not change at all. This indicates excellent uniformity and scalability of the bottom-up-grown NW devices. Compared to field-effect transistors with doped NWs as channels, the structure reported here circumferences the inherent doping nonuniformity issues in NWs grown by the vapor-liquid-solid mechanism, and self-aligned lateral epitaxy nature of our NW structure makes scaling up to NW array-based transistors from the bottom up feasible.",

keywords = "GaAs, high-electron-mobility transistors (HEMTs), III-V, nanowire, scalability",

author = "Xin Miao and Xiuling Li",

note = "Funding Information: Manuscript received May 10, 2011; revised June 10, 2011; accepted June 14, 2011. Date of publication July 18, 2011; date of current version August 24, 2011. This work was supported in part by DARPA YFA under Grant N66001-09-1-2107 and in part by NSF awards 1001928 (ECCS) and 0749028 (CMMI). The review of this letter was arranged by Editor J. A. del Alamo.",

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doi = "10.1109/LED.2011.2160248",

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AU - Miao, Xin

AU - Li, Xiuling

N1 - Funding Information: Manuscript received May 10, 2011; revised June 10, 2011; accepted June 14, 2011. Date of publication July 18, 2011; date of current version August 24, 2011. This work was supported in part by DARPA YFA under Grant N66001-09-1-2107 and in part by NSF awards 1001928 (ECCS) and 0749028 (CMMI). The review of this letter was arranged by Editor J. A. del Alamo.

PY - 2011/9

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N2 - Monolithically grown planar nanowire (NW) high-electron-mobility transistors (NW-HEMTs) are demonstrated using self-aligned 110 GaAs NWs capped with Si-doped AlxGa1-xAs shell as the channel on semi-insulating (100) GaAs substrates. The planar Al0.35Ga 0.65As-GaAs NW-HEMT with ∼1-μm-long gate exhibits excellent dc characteristics, with extrinsic Gm of ∼ 80 mS/mm and estimated intrinsic Gm of ∼260 mS/mm, where the device width is defined as the entire periphery of the NWs. The IONIoff ratio is ∼104 and the threshold is-1.5 V operating in depletion mode. The output current increases linearly with the number of NWs in the channel, while the threshold voltage does not change at all. This indicates excellent uniformity and scalability of the bottom-up-grown NW devices. Compared to field-effect transistors with doped NWs as channels, the structure reported here circumferences the inherent doping nonuniformity issues in NWs grown by the vapor-liquid-solid mechanism, and self-aligned lateral epitaxy nature of our NW structure makes scaling up to NW array-based transistors from the bottom up feasible.

AB - Monolithically grown planar nanowire (NW) high-electron-mobility transistors (NW-HEMTs) are demonstrated using self-aligned 110 GaAs NWs capped with Si-doped AlxGa1-xAs shell as the channel on semi-insulating (100) GaAs substrates. The planar Al0.35Ga 0.65As-GaAs NW-HEMT with ∼1-μm-long gate exhibits excellent dc characteristics, with extrinsic Gm of ∼ 80 mS/mm and estimated intrinsic Gm of ∼260 mS/mm, where the device width is defined as the entire periphery of the NWs. The IONIoff ratio is ∼104 and the threshold is-1.5 V operating in depletion mode. The output current increases linearly with the number of NWs in the channel, while the threshold voltage does not change at all. This indicates excellent uniformity and scalability of the bottom-up-grown NW devices. Compared to field-effect transistors with doped NWs as channels, the structure reported here circumferences the inherent doping nonuniformity issues in NWs grown by the vapor-liquid-solid mechanism, and self-aligned lateral epitaxy nature of our NW structure makes scaling up to NW array-based transistors from the bottom up feasible.

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Scalable monolithically grown AlGaAs-GaAs planar nanowire high-electron-mobility transistor

Abstract

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