Bending and bundling of metal-free vertically aligned ZnO nanowires due to electrostatic interaction

Jinzhang Liu; Soonil Lee; Kyungmoon Lee; Y. H. Ahn; Ji Yong Park; Ken Ha Koh

doi:10.1088/0957-4484/19/18/185607

Bending and bundling of metal-free vertically aligned ZnO nanowires due to electrostatic interaction

Jinzhang Liu
, Soonil Lee^*
, Kyungmoon Lee
, Y. H. Ahn
, Ji Yong Park
, Ken Ha Koh

^*Corresponding author for this work

Ajou University

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

33 Scopus citations

Abstract

Bending and bundling was observed from vertically aligned arrays of ZnO nanowires with flat (0001) top surfaces, which were synthesized using a vapor-phase method without metal catalysts. Sufficient evidence was found to exclude electron-beam bombardment during scanning electron microscopy as a cause for bending and bundling. We attribute the bending and bundling to electrostatic interactions due to charged (0001) polar surfaces, and also discussed the threshold surface charge densities for the bending and bundling based on a simple cantilever-bending model. Some growth features were indicative of the operation of electrostatic interactions during the growth.

Original language	English
Article number	185607
Journal	Nanotechnology
Volume	19
Issue number	18
DOIs	https://doi.org/10.1088/0957-4484/19/18/185607
State	Published - 7 May 2008
Externally published	Yes

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title = "Bending and bundling of metal-free vertically aligned ZnO nanowires due to electrostatic interaction",

abstract = "Bending and bundling was observed from vertically aligned arrays of ZnO nanowires with flat (0001) top surfaces, which were synthesized using a vapor-phase method without metal catalysts. Sufficient evidence was found to exclude electron-beam bombardment during scanning electron microscopy as a cause for bending and bundling. We attribute the bending and bundling to electrostatic interactions due to charged (0001) polar surfaces, and also discussed the threshold surface charge densities for the bending and bundling based on a simple cantilever-bending model. Some growth features were indicative of the operation of electrostatic interactions during the growth.",

author = "Jinzhang Liu and Soonil Lee and Kyungmoon Lee and Ahn, \{Y. H.\} and Park, \{Ji Yong\} and Koh, \{Ken Ha\}",

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AU - Liu, Jinzhang

AU - Lee, Soonil

AU - Lee, Kyungmoon

AU - Ahn, Y. H.

AU - Park, Ji Yong

AU - Koh, Ken Ha

PY - 2008/5/7

Y1 - 2008/5/7

N2 - Bending and bundling was observed from vertically aligned arrays of ZnO nanowires with flat (0001) top surfaces, which were synthesized using a vapor-phase method without metal catalysts. Sufficient evidence was found to exclude electron-beam bombardment during scanning electron microscopy as a cause for bending and bundling. We attribute the bending and bundling to electrostatic interactions due to charged (0001) polar surfaces, and also discussed the threshold surface charge densities for the bending and bundling based on a simple cantilever-bending model. Some growth features were indicative of the operation of electrostatic interactions during the growth.

AB - Bending and bundling was observed from vertically aligned arrays of ZnO nanowires with flat (0001) top surfaces, which were synthesized using a vapor-phase method without metal catalysts. Sufficient evidence was found to exclude electron-beam bombardment during scanning electron microscopy as a cause for bending and bundling. We attribute the bending and bundling to electrostatic interactions due to charged (0001) polar surfaces, and also discussed the threshold surface charge densities for the bending and bundling based on a simple cantilever-bending model. Some growth features were indicative of the operation of electrostatic interactions during the growth.

UR - https://www.scopus.com/pages/publications/42549148036

U2 - 10.1088/0957-4484/19/18/185607

DO - 10.1088/0957-4484/19/18/185607

M3 - 文章

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SN - 0957-4484

VL - 19

JO - Nanotechnology

JF - Nanotechnology

IS - 18

M1 - 185607

ER -

Bending and bundling of metal-free vertically aligned ZnO nanowires due to electrostatic interaction

Abstract

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