Dispersion, refinement, and manipulation of single silicon nanowires

J. Z. He; J. B. Xu; M. S. Xu; Z. Xie; I. H. Wilson; X. L. Ma; Q. Li; N. Wang; L. S. Hung; C. S. Lee; S. T. Lee

doi:10.1063/1.1456966

Dispersion, refinement, and manipulation of single silicon nanowires

J. Z. He
, J. B. Xu
, M. S. Xu
, Z. Xie
, I. H. Wilson
, X. L. Ma
, Q. Li
, N. Wang
, L. S. Hung
, C. S. Lee
, S. T. Lee

Centre of Super-Diamond and Advanced Films

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

7 Citations (Scopus)

Abstract

We have successfully dispersed silicon nanowires in liquid by a mild etching treatment. A transmission electron microscopic study reveals that the etching occurs selectively at the defect sites of the wires. This implies that the treated wires have much fewer defects than those of the raw material. We have adopted an electrophoresis method, which is usually used in biosciences, to mount single nanowires onto chosen electrodes of a prototype device. The mounting of the wires was checked using scanning probe microscopes. Compared with the commonly used microactuation method, our method is far more applicable to industrial device fabrication, which may require simultaneous manipulation of a large number of wires. © 2002 American Institute of Physics.

Original language	English
Pages (from-to)	1812-1814
Journal	Applied Physics Letters
Volume	80
Issue number	10
DOIs	https://doi.org/10.1063/1.1456966
Publication status	Published - 11 Mar 2002

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title = "Dispersion, refinement, and manipulation of single silicon nanowires",

abstract = "We have successfully dispersed silicon nanowires in liquid by a mild etching treatment. A transmission electron microscopic study reveals that the etching occurs selectively at the defect sites of the wires. This implies that the treated wires have much fewer defects than those of the raw material. We have adopted an electrophoresis method, which is usually used in biosciences, to mount single nanowires onto chosen electrodes of a prototype device. The mounting of the wires was checked using scanning probe microscopes. Compared with the commonly used microactuation method, our method is far more applicable to industrial device fabrication, which may require simultaneous manipulation of a large number of wires. {\textcopyright} 2002 American Institute of Physics.",

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year = "2002",

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doi = "10.1063/1.1456966",

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TY - JOUR

T1 - Dispersion, refinement, and manipulation of single silicon nanowires

AU - He, J. Z.

AU - Xu, J. B.

AU - Xu, M. S.

AU - Xie, Z.

AU - Wilson, I. H.

AU - Ma, X. L.

AU - Li, Q.

AU - Wang, N.

AU - Hung, L. S.

AU - Lee, C. S.

AU - Lee, S. T.

PY - 2002/3/11

Y1 - 2002/3/11

N2 - We have successfully dispersed silicon nanowires in liquid by a mild etching treatment. A transmission electron microscopic study reveals that the etching occurs selectively at the defect sites of the wires. This implies that the treated wires have much fewer defects than those of the raw material. We have adopted an electrophoresis method, which is usually used in biosciences, to mount single nanowires onto chosen electrodes of a prototype device. The mounting of the wires was checked using scanning probe microscopes. Compared with the commonly used microactuation method, our method is far more applicable to industrial device fabrication, which may require simultaneous manipulation of a large number of wires. © 2002 American Institute of Physics.

AB - We have successfully dispersed silicon nanowires in liquid by a mild etching treatment. A transmission electron microscopic study reveals that the etching occurs selectively at the defect sites of the wires. This implies that the treated wires have much fewer defects than those of the raw material. We have adopted an electrophoresis method, which is usually used in biosciences, to mount single nanowires onto chosen electrodes of a prototype device. The mounting of the wires was checked using scanning probe microscopes. Compared with the commonly used microactuation method, our method is far more applicable to industrial device fabrication, which may require simultaneous manipulation of a large number of wires. © 2002 American Institute of Physics.

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U2 - 10.1063/1.1456966

DO - 10.1063/1.1456966

M3 - RGC 21 - Publication in refereed journal

SN - 0003-6951

VL - 80

SP - 1812

EP - 1814

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 10

ER -

Dispersion, refinement, and manipulation of single silicon nanowires

Abstract

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