Tunable n-type conductivity and transport properties of Ga-doped ZnO nanowire arrays

Guo-Dong Yuan; Wen-Jun Zhang; Jian-Sheng Jie; Xia Fan; Jian-Xin Tang; Ismathullakhan Shafiq; Zhi-Zhen Ye; Chun-Sing Lee; Shuit-Tong Lee

doi:10.1002/adma.200701377

Tunable n-type conductivity and transport properties of Ga-doped ZnO nanowire arrays

Guo-Dong Yuan
, Wen-Jun Zhang
, Jian-Sheng Jie
, Xia Fan
, Jian-Xin Tang
, Ismathullakhan Shafiq
, Zhi-Zhen Ye
, Chun-Sing Lee
, Shuit-Tong Lee

Centre of Super-Diamond and Advanced Films

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

225 Citations (Scopus)

Abstract

A controlled growth and doping process of well-aligned Ga-doped ZnO nanowire (NW) arrays through thermal evaporation was reported to determine the tunable n-type conductivity and transport properties of the NWs. The results show that the NWs have a uniform diameter of 60-80 nm and the wire length can be controlled by varying the growth time. The growth dierction of ZnO nanowires can be systematically varied through dopant content while the growth is dictated by the formation of the lowest-free-energy surface in NWs. A small red shift in UV emission is observed in Ga-doped ZnO nanotips and thin films and the apparent band gap narrowing related to Ga doping in ZnO is attributed to semiconductor-to-metal transition.

Original language	English
Pages (from-to)	168-173
Journal	Advanced Materials
Volume	20
Issue number	1
DOIs	https://doi.org/10.1002/adma.200701377
Publication status	Published - 7 Jan 2008

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abstract = "A controlled growth and doping process of well-aligned Ga-doped ZnO nanowire (NW) arrays through thermal evaporation was reported to determine the tunable n-type conductivity and transport properties of the NWs. The results show that the NWs have a uniform diameter of 60-80 nm and the wire length can be controlled by varying the growth time. The growth dierction of ZnO nanowires can be systematically varied through dopant content while the growth is dictated by the formation of the lowest-free-energy surface in NWs. A small red shift in UV emission is observed in Ga-doped ZnO nanotips and thin films and the apparent band gap narrowing related to Ga doping in ZnO is attributed to semiconductor-to-metal transition.",

author = "Guo-Dong Yuan and Wen-Jun Zhang and Jian-Sheng Jie and Xia Fan and Jian-Xin Tang and Ismathullakhan Shafiq and Zhi-Zhen Ye and Chun-Sing Lee and Shuit-Tong Lee",

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T1 - Tunable n-type conductivity and transport properties of Ga-doped ZnO nanowire arrays

AU - Yuan, Guo-Dong

AU - Zhang, Wen-Jun

AU - Jie, Jian-Sheng

AU - Fan, Xia

AU - Tang, Jian-Xin

AU - Shafiq, Ismathullakhan

AU - Ye, Zhi-Zhen

AU - Lee, Chun-Sing

AU - Lee, Shuit-Tong

PY - 2008/1/7

Y1 - 2008/1/7

N2 - A controlled growth and doping process of well-aligned Ga-doped ZnO nanowire (NW) arrays through thermal evaporation was reported to determine the tunable n-type conductivity and transport properties of the NWs. The results show that the NWs have a uniform diameter of 60-80 nm and the wire length can be controlled by varying the growth time. The growth dierction of ZnO nanowires can be systematically varied through dopant content while the growth is dictated by the formation of the lowest-free-energy surface in NWs. A small red shift in UV emission is observed in Ga-doped ZnO nanotips and thin films and the apparent band gap narrowing related to Ga doping in ZnO is attributed to semiconductor-to-metal transition.

AB - A controlled growth and doping process of well-aligned Ga-doped ZnO nanowire (NW) arrays through thermal evaporation was reported to determine the tunable n-type conductivity and transport properties of the NWs. The results show that the NWs have a uniform diameter of 60-80 nm and the wire length can be controlled by varying the growth time. The growth dierction of ZnO nanowires can be systematically varied through dopant content while the growth is dictated by the formation of the lowest-free-energy surface in NWs. A small red shift in UV emission is observed in Ga-doped ZnO nanotips and thin films and the apparent band gap narrowing related to Ga doping in ZnO is attributed to semiconductor-to-metal transition.

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DO - 10.1002/adma.200701377

M3 - RGC 21 - Publication in refereed journal

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JO - Advanced Materials

JF - Advanced Materials

IS - 1

ER -

Tunable n-type conductivity and transport properties of Ga-doped ZnO nanowire arrays

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