Low-cost, large-scale, and facile production of Si nanowires exhibiting enhanced third-order optical nonlinearity

Zhipeng Huang; Ruxue Wang; Ding Jia; Li Maoying; Mark G. Humphrey; Chi Zhang

doi:10.1021/am201758z

Low-cost, large-scale, and facile production of Si nanowires exhibiting enhanced third-order optical nonlinearity

Zhipeng Huang, Ruxue Wang, Ding Jia, Li Maoying, Mark G. Humphrey, Chi Zhang^*

^*Corresponding author for this work

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

26 Citations (Scopus)

Abstract

A facile method for the low-cost and large-scale production of silicon nanowires has been developed. Silicon powders were subjected to sequential metal plating and metal-assisted chemical etching, resulting in well-defined silicon nanowires. The morphology and structure of the silicon nanowires were investigated, revealing that single-crystal silicon nanowires with average diameters of 79 ± 35 nm and length more than 10 μm can be fabricated. The silicon nanowires show excellent third-order nonlinear optical properties, with a third-order susceptibility much larger than that of bulk silicon, porous silicon, and silicon nanocrystals embedded in SiO ₂.

Original language	English
Pages (from-to)	1553-1559
Number of pages	7
Journal	ACS applied materials & interfaces
Volume	4
Issue number	3
DOIs	https://doi.org/10.1021/am201758z
Publication status	Published - 28 Mar 2012

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abstract = "A facile method for the low-cost and large-scale production of silicon nanowires has been developed. Silicon powders were subjected to sequential metal plating and metal-assisted chemical etching, resulting in well-defined silicon nanowires. The morphology and structure of the silicon nanowires were investigated, revealing that single-crystal silicon nanowires with average diameters of 79 ± 35 nm and length more than 10 μm can be fabricated. The silicon nanowires show excellent third-order nonlinear optical properties, with a third-order susceptibility much larger than that of bulk silicon, porous silicon, and silicon nanocrystals embedded in SiO 2.",

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author = "Zhipeng Huang and Ruxue Wang and Ding Jia and Li Maoying and Humphrey, {Mark G.} and Chi Zhang",

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AU - Huang, Zhipeng

AU - Wang, Ruxue

AU - Jia, Ding

AU - Maoying, Li

AU - Humphrey, Mark G.

AU - Zhang, Chi

PY - 2012/3/28

Y1 - 2012/3/28

N2 - A facile method for the low-cost and large-scale production of silicon nanowires has been developed. Silicon powders were subjected to sequential metal plating and metal-assisted chemical etching, resulting in well-defined silicon nanowires. The morphology and structure of the silicon nanowires were investigated, revealing that single-crystal silicon nanowires with average diameters of 79 ± 35 nm and length more than 10 μm can be fabricated. The silicon nanowires show excellent third-order nonlinear optical properties, with a third-order susceptibility much larger than that of bulk silicon, porous silicon, and silicon nanocrystals embedded in SiO 2.

AB - A facile method for the low-cost and large-scale production of silicon nanowires has been developed. Silicon powders were subjected to sequential metal plating and metal-assisted chemical etching, resulting in well-defined silicon nanowires. The morphology and structure of the silicon nanowires were investigated, revealing that single-crystal silicon nanowires with average diameters of 79 ± 35 nm and length more than 10 μm can be fabricated. The silicon nanowires show excellent third-order nonlinear optical properties, with a third-order susceptibility much larger than that of bulk silicon, porous silicon, and silicon nanocrystals embedded in SiO 2.

KW - etching

KW - nonlinear optics

KW - silicon nanowire

KW - synthesis

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JO - ACS applied materials & interfaces

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IS - 3

ER -

Low-cost, large-scale, and facile production of Si nanowires exhibiting enhanced third-order optical nonlinearity

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