Numerical study on the dependence of ZnO thin-film transistor characteristics on grain boundary position

An Zhang; Xiao Ru Zhao; Li Bing Duan; Jin Ming Liu; Jian Lin Zhao

doi:10.1088/1674-1056/20/5/057201

Numerical study on the dependence of ZnO thin-film transistor characteristics on grain boundary position

An Zhang, Xiao Ru Zhao, Li Bing Duan, Jin Ming Liu, Jian Lin Zhao

School of Physical Science and Technology

Northwestern Polytechnical University Xian

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

20 Scopus citations

Abstract

The dependence of transistor characteristics on grain boundary (GB) position in short-channel ZnO thin film transistors (TFTs) has been investigated using two-dimensional numerical simulations. To simulate the device accurately, both tail states and deep-level states are taken into consideration. It is shown that both the transfer and output characteristics of ZnO TFTs change dramatically with varying GB position, which is different from polycrystalline Si (poly-Si) TFTs. By analysing the mechanism of the carrier transportation in the device, it is revealed that the dependence is derived from the degrees of carrier concentration descent and mobility variation with GB position.

Original language	English
Article number	057201
Journal	Chinese Physics B
Volume	20
Issue number	5
DOIs	https://doi.org/10.1088/1674-1056/20/5/057201
State	Published - May 2011

Keywords

grain boundary
simulation
trap states
ZnO thin film transistors

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10.1088/1674-1056/20/5/057201

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title = "Numerical study on the dependence of ZnO thin-film transistor characteristics on grain boundary position",

abstract = "The dependence of transistor characteristics on grain boundary (GB) position in short-channel ZnO thin film transistors (TFTs) has been investigated using two-dimensional numerical simulations. To simulate the device accurately, both tail states and deep-level states are taken into consideration. It is shown that both the transfer and output characteristics of ZnO TFTs change dramatically with varying GB position, which is different from polycrystalline Si (poly-Si) TFTs. By analysing the mechanism of the carrier transportation in the device, it is revealed that the dependence is derived from the degrees of carrier concentration descent and mobility variation with GB position.",

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T1 - Numerical study on the dependence of ZnO thin-film transistor characteristics on grain boundary position

AU - Zhang, An

AU - Zhao, Xiao Ru

AU - Duan, Li Bing

AU - Liu, Jin Ming

AU - Zhao, Jian Lin

PY - 2011/5

Y1 - 2011/5

N2 - The dependence of transistor characteristics on grain boundary (GB) position in short-channel ZnO thin film transistors (TFTs) has been investigated using two-dimensional numerical simulations. To simulate the device accurately, both tail states and deep-level states are taken into consideration. It is shown that both the transfer and output characteristics of ZnO TFTs change dramatically with varying GB position, which is different from polycrystalline Si (poly-Si) TFTs. By analysing the mechanism of the carrier transportation in the device, it is revealed that the dependence is derived from the degrees of carrier concentration descent and mobility variation with GB position.

AB - The dependence of transistor characteristics on grain boundary (GB) position in short-channel ZnO thin film transistors (TFTs) has been investigated using two-dimensional numerical simulations. To simulate the device accurately, both tail states and deep-level states are taken into consideration. It is shown that both the transfer and output characteristics of ZnO TFTs change dramatically with varying GB position, which is different from polycrystalline Si (poly-Si) TFTs. By analysing the mechanism of the carrier transportation in the device, it is revealed that the dependence is derived from the degrees of carrier concentration descent and mobility variation with GB position.

KW - grain boundary

KW - simulation

KW - trap states

KW - ZnO thin film transistors

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DO - 10.1088/1674-1056/20/5/057201

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SN - 1674-1056

VL - 20

JO - Chinese Physics B

JF - Chinese Physics B

IS - 5

M1 - 057201

ER -

Numerical study on the dependence of ZnO thin-film transistor characteristics on grain boundary position

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