Nanometer-scale modification and welding of silicon and metallic nanowires with a high-intensity electron beam

Shengyong Xu; Mingliang Tian; Jinguo Wang; Jian Xu; Joan M. Redwing; Moses H.W. Chan

doi:10.1002/smll.200500240

Nanometer-scale modification and welding of silicon and metallic nanowires with a high-intensity electron beam

Shengyong Xu, Mingliang Tian, Jinguo Wang, Jian Xu, Joan M. Redwing, Moses H.W. Chan

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

174 Scopus citations

Abstract

We demonstrate that a high-intensity electron beam can be applied to create holes, gaps, and other patterns of atomic and nanometer dimensions on a single nanowire, to weld individual nanowires to form metal-metal or metal-semiconductor junctions, and to remove the oxide shell from a crystalline nanowire. In single-crystalline Si nanowires, the beam induces instant local vaporization and local amorphization. In metallic Au, Ag, Cu, and Sn nanowires, the beam induces rapid local surface melting and enhanced surface diffusion, in addition to local vaporization. These studies open up a novel approach for patterning and connecting nanomaterials in devices and circuits at the nanometer scale.

Original language	English (US)
Pages (from-to)	1221-1229
Number of pages	9
Journal	Small
Volume	1
Issue number	12
DOIs	https://doi.org/10.1002/smll.200500240
State	Published - Dec 2005

All Science Journal Classification (ASJC) codes

General Chemistry
Engineering (miscellaneous)
Biotechnology
General Materials Science
Biomaterials

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abstract = "We demonstrate that a high-intensity electron beam can be applied to create holes, gaps, and other patterns of atomic and nanometer dimensions on a single nanowire, to weld individual nanowires to form metal-metal or metal-semiconductor junctions, and to remove the oxide shell from a crystalline nanowire. In single-crystalline Si nanowires, the beam induces instant local vaporization and local amorphization. In metallic Au, Ag, Cu, and Sn nanowires, the beam induces rapid local surface melting and enhanced surface diffusion, in addition to local vaporization. These studies open up a novel approach for patterning and connecting nanomaterials in devices and circuits at the nanometer scale.",

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T1 - Nanometer-scale modification and welding of silicon and metallic nanowires with a high-intensity electron beam

AU - Xu, Shengyong

AU - Tian, Mingliang

AU - Wang, Jinguo

AU - Xu, Jian

AU - Redwing, Joan M.

AU - Chan, Moses H.W.

PY - 2005/12

Y1 - 2005/12

N2 - We demonstrate that a high-intensity electron beam can be applied to create holes, gaps, and other patterns of atomic and nanometer dimensions on a single nanowire, to weld individual nanowires to form metal-metal or metal-semiconductor junctions, and to remove the oxide shell from a crystalline nanowire. In single-crystalline Si nanowires, the beam induces instant local vaporization and local amorphization. In metallic Au, Ag, Cu, and Sn nanowires, the beam induces rapid local surface melting and enhanced surface diffusion, in addition to local vaporization. These studies open up a novel approach for patterning and connecting nanomaterials in devices and circuits at the nanometer scale.

AB - We demonstrate that a high-intensity electron beam can be applied to create holes, gaps, and other patterns of atomic and nanometer dimensions on a single nanowire, to weld individual nanowires to form metal-metal or metal-semiconductor junctions, and to remove the oxide shell from a crystalline nanowire. In single-crystalline Si nanowires, the beam induces instant local vaporization and local amorphization. In metallic Au, Ag, Cu, and Sn nanowires, the beam induces rapid local surface melting and enhanced surface diffusion, in addition to local vaporization. These studies open up a novel approach for patterning and connecting nanomaterials in devices and circuits at the nanometer scale.

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Nanometer-scale modification and welding of silicon and metallic nanowires with a high-intensity electron beam

Abstract

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