Zinc sulfide nanowire arrays on silicon wafers for field emitters

Zhi Gang Chen; Lina Cheng; Jin Zou; Xiangdong Yao; Gao Qing Lu; Hui Ming Cheng

doi:10.1088/0957-4484/21/6/065701

Zinc sulfide nanowire arrays on silicon wafers for field emitters

Zhi Gang Chen
, Lina Cheng
, Jin Zou
, Xiangdong Yao
, Gao Qing Lu
, Hui Ming Cheng

School of Energy and Power Engineering

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

21 Scopus citations

Abstract

Wurtzite structured zinc sulfide (ZnS) nanowire arrays are synthesized on silicon (111) wafers by a facile evaporation-condensation approach. These ZnS nanowire arrays possess predominant field emission properties with a low turn-on field of 2.9 Vνm^-1, a low threshold field of 4.25Vνm ^-1, a high field-enhancement factor (over 2700), and a high stability with a low fluctuation (∼0.8%). The improved field emission performance of these ZnS nanowire arrays is attributed to their specific crystallographic feature - array structures with nanotips and high single crystallinity. These results suggest that such ZnS nanowire arrays can be used as building blocks for field emitters.

Original language	English
Article number	065701
Journal	Nanotechnology
Volume	21
Issue number	6
DOIs	https://doi.org/10.1088/0957-4484/21/6/065701
State	Published - 2010

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title = "Zinc sulfide nanowire arrays on silicon wafers for field emitters",

abstract = "Wurtzite structured zinc sulfide (ZnS) nanowire arrays are synthesized on silicon (111) wafers by a facile evaporation-condensation approach. These ZnS nanowire arrays possess predominant field emission properties with a low turn-on field of 2.9 Vνm-1, a low threshold field of 4.25Vνm -1, a high field-enhancement factor (over 2700), and a high stability with a low fluctuation (∼0.8\%). The improved field emission performance of these ZnS nanowire arrays is attributed to their specific crystallographic feature - array structures with nanotips and high single crystallinity. These results suggest that such ZnS nanowire arrays can be used as building blocks for field emitters.",

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AU - Chen, Zhi Gang

AU - Cheng, Lina

AU - Zou, Jin

AU - Yao, Xiangdong

AU - Lu, Gao Qing

AU - Cheng, Hui Ming

PY - 2010

Y1 - 2010

N2 - Wurtzite structured zinc sulfide (ZnS) nanowire arrays are synthesized on silicon (111) wafers by a facile evaporation-condensation approach. These ZnS nanowire arrays possess predominant field emission properties with a low turn-on field of 2.9 Vνm-1, a low threshold field of 4.25Vνm -1, a high field-enhancement factor (over 2700), and a high stability with a low fluctuation (∼0.8%). The improved field emission performance of these ZnS nanowire arrays is attributed to their specific crystallographic feature - array structures with nanotips and high single crystallinity. These results suggest that such ZnS nanowire arrays can be used as building blocks for field emitters.

AB - Wurtzite structured zinc sulfide (ZnS) nanowire arrays are synthesized on silicon (111) wafers by a facile evaporation-condensation approach. These ZnS nanowire arrays possess predominant field emission properties with a low turn-on field of 2.9 Vνm-1, a low threshold field of 4.25Vνm -1, a high field-enhancement factor (over 2700), and a high stability with a low fluctuation (∼0.8%). The improved field emission performance of these ZnS nanowire arrays is attributed to their specific crystallographic feature - array structures with nanotips and high single crystallinity. These results suggest that such ZnS nanowire arrays can be used as building blocks for field emitters.

UR - https://www.scopus.com/pages/publications/75249092724

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SN - 0957-4484

VL - 21

JO - Nanotechnology

JF - Nanotechnology

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ER -

Zinc sulfide nanowire arrays on silicon wafers for field emitters

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