Antireflection silicon structures with hydrophobic property fabricated by three-beam laser interference

L. Zhao; Z. Wang; J. Zhang; L. Cao; L. Li; Y. Yue; D. Li

doi:10.1016/j.apsusc.2015.04.058

Antireflection silicon structures with hydrophobic property fabricated by three-beam laser interference

L. Zhao, Z. Wang^*, J. Zhang, L. Cao, L. Li, Y. Yue, D. Li

^*Corresponding author for this work

Department of Computing

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

40 Citations (Scopus)

Abstract

This paper demonstrates antireflective structures on silicon wafer surfaces with hydrophobic property fabricated by three-beam laser interference. In this work, a three-beam laser interference system was set up to generate periodic micro-nano hole structures with hexagonal distributions. Compared with the existing technologies, the array of hexagonally-distributed hole structures fabricated by three-beam laser interference reveals a design guideline to achieve considerably low solar-weighted reflectance (SWR) in the wavelength range of 300-780 nm. The resulting periodic hexagonally-distributed hole structures have shown extremely low SWR (1.86%) and relatively large contact angle (140°) providing with a self-cleaning capability on the solar cell surface.

Original language	English
Pages (from-to)	574-579
Number of pages	6
Journal	Applied Surface Science
Volume	346
DOIs	https://doi.org/10.1016/j.apsusc.2015.04.058
Publication status	Published - 15 Aug 2015

Keywords

Antireflection
Hexagonal structures
Self-cleaning
Solar cell
Three-beam laser interference

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10.1016/j.apsusc.2015.04.058

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title = "Antireflection silicon structures with hydrophobic property fabricated by three-beam laser interference",

abstract = "This paper demonstrates antireflective structures on silicon wafer surfaces with hydrophobic property fabricated by three-beam laser interference. In this work, a three-beam laser interference system was set up to generate periodic micro-nano hole structures with hexagonal distributions. Compared with the existing technologies, the array of hexagonally-distributed hole structures fabricated by three-beam laser interference reveals a design guideline to achieve considerably low solar-weighted reflectance (SWR) in the wavelength range of 300-780 nm. The resulting periodic hexagonally-distributed hole structures have shown extremely low SWR (1.86%) and relatively large contact angle (140°) providing with a self-cleaning capability on the solar cell surface.",

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AU - Zhao, L.

AU - Wang, Z.

AU - Zhang, J.

AU - Cao, L.

AU - Li, L.

AU - Yue, Y.

AU - Li, D.

PY - 2015/8/15

Y1 - 2015/8/15

N2 - This paper demonstrates antireflective structures on silicon wafer surfaces with hydrophobic property fabricated by three-beam laser interference. In this work, a three-beam laser interference system was set up to generate periodic micro-nano hole structures with hexagonal distributions. Compared with the existing technologies, the array of hexagonally-distributed hole structures fabricated by three-beam laser interference reveals a design guideline to achieve considerably low solar-weighted reflectance (SWR) in the wavelength range of 300-780 nm. The resulting periodic hexagonally-distributed hole structures have shown extremely low SWR (1.86%) and relatively large contact angle (140°) providing with a self-cleaning capability on the solar cell surface.

AB - This paper demonstrates antireflective structures on silicon wafer surfaces with hydrophobic property fabricated by three-beam laser interference. In this work, a three-beam laser interference system was set up to generate periodic micro-nano hole structures with hexagonal distributions. Compared with the existing technologies, the array of hexagonally-distributed hole structures fabricated by three-beam laser interference reveals a design guideline to achieve considerably low solar-weighted reflectance (SWR) in the wavelength range of 300-780 nm. The resulting periodic hexagonally-distributed hole structures have shown extremely low SWR (1.86%) and relatively large contact angle (140°) providing with a self-cleaning capability on the solar cell surface.

KW - Antireflection

KW - Hexagonal structures

KW - Self-cleaning

KW - Solar cell

KW - Three-beam laser interference

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JO - Applied Surface Science

JF - Applied Surface Science

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Antireflection silicon structures with hydrophobic property fabricated by three-beam laser interference

Abstract

Keywords

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