High‐Quality Femtosecond Laser Surface Micro/Nano‐Structuring Assisted by A Thin Frost Layer

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Abstract: Femtosecond laser ablation has been demonstrated to be a versatile tool to produce micro/nanoscale features with high precision and accuracy. However, the use of high laser fluence to increase the ablation efficiency usually results in unwanted effects, such as redeposition of debris, formation of recast layer, and heat‐affected zone in or around the ablation craters. Here this limitation is circumvented by exploiting a thin frost layer with a thickness of tens of microns, which can be directly formed by the condensation of water vapor from the air onto the exposed surface whose temperature is below the freezing point. When the femtosecond laser beam is focused onto the target surface covered with a thin frost layer, only the local frost layer around the laser‐irradiated spot melts into water, helping to boost ablation efficiency, suppress the recast layer, and reduce the heat‐affect zone, while the remaining frost layer can prevent ablation debris from adhering to the target surface. By this frost‐assisted strategy, high‐quality surface micro/nano‐structures are successfully achieved on both plane and curved surfaces at high laser fluences, and the mechanism behind the formation of high‐spatial‐frequency (HSF) laser‐induced periodic surface structures (LIPSSs) on silicon is discussed.

Location: Deutsche Nationalbibliothek Frankfurt am Main

Extent: Online-Ressource

Language: Englisch

Bibliographic citation: High‐Quality Femtosecond Laser Surface Micro/Nano‐Structuring Assisted by A Thin Frost Layer ; day:14 ; month:02 ; year:2023 ; extent:8
Advanced materials interfaces ; (14.02.2023) (gesamt 8)

Creator: Gao, Wenhai
Zheng, Kai
Liao, Yang
Du, Henglei
Liu, Chengpu
Ye, Chengrun
Liu, Ke
Xie, Shaoming
Chen, Cong
Chen, Junchi
Peng, Yujie
Leng, Yuxin

DOI: 10.1002/admi.202201924

URN: urn:nbn:de:101:1-2023021514095504892001

Rights: Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.

Last update: 14.08.2025, 10:47 AM CEST

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Associated

Gao, Wenhai
Zheng, Kai
Liao, Yang
Du, Henglei
Liu, Chengpu
Ye, Chengrun
Liu, Ke
Xie, Shaoming
Chen, Cong
Chen, Junchi
Peng, Yujie
Leng, Yuxin

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High‐Quality Femtosecond Laser Surface Micro/Nano‐Structuring Assisted by A Thin Frost Layer

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