Large area uniform nanostructures fabricated by direct femtosecond laser ablation

Min Huang; Fuli Zhao; Ya Cheng; Ningsheng Xu; Zhizhan Xu

doi:10.1364/OE.16.019354

Large area uniform nanostructures fabricated by direct femtosecond laser ablation

Min Huang^*
, Fuli Zhao
, Ya Cheng
, Ningsheng Xu
, Zhizhan Xu

^*Corresponding author for this work

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

120 Scopus citations

Abstract

An approach for fabricating large area uniform nanostructures by direct femtosecond (fs) laser ablation is presented. By the simple scanning technique with appropriate irradiation conditions, arbitrary size of uniform, complanate nano-grating, nano-particle, and nano-square structures can be produced on wide bandgap materials as well as graphite. The feature sizes of the formed nanostructures, which can be tuned in a wide range by varying the irradiation wavelength, is about 200 nm with 800 nm fs laser irradiation. The physical properties of the nano-structured surfaces are changed greatly, especially the optical property, which is demonstrated by the extraordinary enhancement of light transmission of the treated area. This technique is efficient, universal, and environmentally friendly, which exhibits great potential for applications in photoelectron devices.

Original language	English
Pages (from-to)	19354-19365
Number of pages	12
Journal	Optics Express
Volume	16
Issue number	23
DOIs	https://doi.org/10.1364/OE.16.019354
State	Published - 10 Nov 2008
Externally published	Yes

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title = "Large area uniform nanostructures fabricated by direct femtosecond laser ablation",

abstract = "An approach for fabricating large area uniform nanostructures by direct femtosecond (fs) laser ablation is presented. By the simple scanning technique with appropriate irradiation conditions, arbitrary size of uniform, complanate nano-grating, nano-particle, and nano-square structures can be produced on wide bandgap materials as well as graphite. The feature sizes of the formed nanostructures, which can be tuned in a wide range by varying the irradiation wavelength, is about 200 nm with 800 nm fs laser irradiation. The physical properties of the nano-structured surfaces are changed greatly, especially the optical property, which is demonstrated by the extraordinary enhancement of light transmission of the treated area. This technique is efficient, universal, and environmentally friendly, which exhibits great potential for applications in photoelectron devices.",

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AU - Huang, Min

AU - Zhao, Fuli

AU - Cheng, Ya

AU - Xu, Ningsheng

AU - Xu, Zhizhan

PY - 2008/11/10

Y1 - 2008/11/10

N2 - An approach for fabricating large area uniform nanostructures by direct femtosecond (fs) laser ablation is presented. By the simple scanning technique with appropriate irradiation conditions, arbitrary size of uniform, complanate nano-grating, nano-particle, and nano-square structures can be produced on wide bandgap materials as well as graphite. The feature sizes of the formed nanostructures, which can be tuned in a wide range by varying the irradiation wavelength, is about 200 nm with 800 nm fs laser irradiation. The physical properties of the nano-structured surfaces are changed greatly, especially the optical property, which is demonstrated by the extraordinary enhancement of light transmission of the treated area. This technique is efficient, universal, and environmentally friendly, which exhibits great potential for applications in photoelectron devices.

AB - An approach for fabricating large area uniform nanostructures by direct femtosecond (fs) laser ablation is presented. By the simple scanning technique with appropriate irradiation conditions, arbitrary size of uniform, complanate nano-grating, nano-particle, and nano-square structures can be produced on wide bandgap materials as well as graphite. The feature sizes of the formed nanostructures, which can be tuned in a wide range by varying the irradiation wavelength, is about 200 nm with 800 nm fs laser irradiation. The physical properties of the nano-structured surfaces are changed greatly, especially the optical property, which is demonstrated by the extraordinary enhancement of light transmission of the treated area. This technique is efficient, universal, and environmentally friendly, which exhibits great potential for applications in photoelectron devices.

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Large area uniform nanostructures fabricated by direct femtosecond laser ablation

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