Diameter dependence of electron mobility in InGaAs nanowires

Jared J. Hou; Fengyun Wang; Ning Han; Haoshen Zhu; Kitwa Fok; Waichak Lam; Senpo Yip; Takfu Hung; Joshua E.Y. Lee; Johnny C. Ho

doi:10.1063/1.4794414

Diameter dependence of electron mobility in InGaAs nanowires

Jared J. Hou
, Fengyun Wang
, Ning Han
, Haoshen Zhu
, Kitwa Fok
, Waichak Lam
, Senpo Yip
, Takfu Hung
, Joshua E.Y. Lee
, Johnny C. Ho^*

^*Corresponding author for this work

City University of Hong Kong

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

33 Scopus citations

Abstract

In this work, we present the diameter dependent electron mobility study of InGaAs nanowires (NWs) grown by gold-catalyzed vapor transport method. These single crystalline nanowires have an In-rich stoichiometry (i.e., In _0.7Ga_0.3As) with dispersed diameters from 15 to 55 nm. The current-voltage behaviors of fabricated nanowire field-effect transistors reveal that the aggressive scaling of nanowire diameter will induce a degradation of electron mobility, while low-temperature measurements further decouple the effects of surface/interface traps and phonon scattering, highlighting the impact of surface roughness scattering on the electron mobility. This work suggests a careful design consideration of nanowire dimension is required for achieving the optimal device performances.

Original language	English
Article number	093112
Journal	Applied Physics Letters
Volume	102
Issue number	9
DOIs	https://doi.org/10.1063/1.4794414
State	Published - 4 Mar 2013
Externally published	Yes

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title = "Diameter dependence of electron mobility in InGaAs nanowires",

abstract = "In this work, we present the diameter dependent electron mobility study of InGaAs nanowires (NWs) grown by gold-catalyzed vapor transport method. These single crystalline nanowires have an In-rich stoichiometry (i.e., In 0.7Ga0.3As) with dispersed diameters from 15 to 55 nm. The current-voltage behaviors of fabricated nanowire field-effect transistors reveal that the aggressive scaling of nanowire diameter will induce a degradation of electron mobility, while low-temperature measurements further decouple the effects of surface/interface traps and phonon scattering, highlighting the impact of surface roughness scattering on the electron mobility. This work suggests a careful design consideration of nanowire dimension is required for achieving the optimal device performances.",

author = "Hou, \{Jared J.\} and Fengyun Wang and Ning Han and Haoshen Zhu and Kitwa Fok and Waichak Lam and Senpo Yip and Takfu Hung and Lee, \{Joshua E.Y.\} and Ho, \{Johnny C.\}",

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doi = "10.1063/1.4794414",

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volume = "102",

journal = "Applied Physics Letters",

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T1 - Diameter dependence of electron mobility in InGaAs nanowires

AU - Hou, Jared J.

AU - Wang, Fengyun

AU - Han, Ning

AU - Zhu, Haoshen

AU - Fok, Kitwa

AU - Lam, Waichak

AU - Yip, Senpo

AU - Hung, Takfu

AU - Lee, Joshua E.Y.

AU - Ho, Johnny C.

PY - 2013/3/4

Y1 - 2013/3/4

N2 - In this work, we present the diameter dependent electron mobility study of InGaAs nanowires (NWs) grown by gold-catalyzed vapor transport method. These single crystalline nanowires have an In-rich stoichiometry (i.e., In 0.7Ga0.3As) with dispersed diameters from 15 to 55 nm. The current-voltage behaviors of fabricated nanowire field-effect transistors reveal that the aggressive scaling of nanowire diameter will induce a degradation of electron mobility, while low-temperature measurements further decouple the effects of surface/interface traps and phonon scattering, highlighting the impact of surface roughness scattering on the electron mobility. This work suggests a careful design consideration of nanowire dimension is required for achieving the optimal device performances.

AB - In this work, we present the diameter dependent electron mobility study of InGaAs nanowires (NWs) grown by gold-catalyzed vapor transport method. These single crystalline nanowires have an In-rich stoichiometry (i.e., In 0.7Ga0.3As) with dispersed diameters from 15 to 55 nm. The current-voltage behaviors of fabricated nanowire field-effect transistors reveal that the aggressive scaling of nanowire diameter will induce a degradation of electron mobility, while low-temperature measurements further decouple the effects of surface/interface traps and phonon scattering, highlighting the impact of surface roughness scattering on the electron mobility. This work suggests a careful design consideration of nanowire dimension is required for achieving the optimal device performances.

UR - https://www.scopus.com/pages/publications/84875127830

U2 - 10.1063/1.4794414

DO - 10.1063/1.4794414

M3 - 文章

AN - SCOPUS:84875127830

SN - 0003-6951

VL - 102

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 9

M1 - 093112

ER -

Diameter dependence of electron mobility in InGaAs nanowires

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