Electrostatic charging and manipulation of semiconductor nanowires

被引:0
作者
Vincent C. Holmberg
Reken N. Patel
Brian A. Korgel
机构
[1] The University of Texas at Austin,Department of Chemical Engineering, Center for Nano and Molecular Science and Technology, Texas Materials Institute
来源
Journal of Materials Research | 2011年 / 26卷
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摘要
It was observed that silicon and germanium nanowires can exhibit significant electrostatic charging and respond strongly to externally applied electric fields. This includes nanowires in air and dispersed in low-conductivity, low-dielectric-constant solvents such as hexane, toluene, and benzene. The electrostatic charging of semiconductor nanowires was investigated as a tool for nanowire manipulation. By charging a substrate, nanowires could be deposited on surfaces with very high coverage and onto selected locations of the surface. The density of deposited nanowires could be adjusted systematically by varying the strength of the electric field. Alternating electric fields, applied between two electrodes, resulted in nanowires oriented with respect to the field orientation.
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页码:2305 / 2310
页数:5
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