In this work, copper surfaces were textured with sub-Terahertz bursts of femtosecond pulses. The wettability of Cu textured surfaces was investigated by measuring the static water contact angle (WCA) as a function of the number of sub-pulses and the intra-burst frequency. A superhydrophobic, antiadhesive response was observed when using bursts with a high number of sub-pulses (equal to or higher than 16) or a high intra-burst frequency (equal to or higher than 0.09 THz). Such trend was ascribed to the generation, under specific laser irradiation conditions, of a double-scale hierarchical texture on the sample surface, formed by sub-micro patterns with fine periodic ripples (LIPSS, Laser-Induced Periodic Surface Structures) and random nanoparticle decoration. Such texture enhances the hydrophobic behavior given by inherent adsorption of adventitious hydrocarbons on laser processed and thermally-treated metal targets.
Tailoring the wettability of surface-textured copper using sub-THz bursts of femtosecond laser pulses / Gaudiuso, Caterina; Fanelli, Fiorenza; Mezzapesa, Francesco Paolo; Volpe, Annalisa; Ancona, Antonio. - In: APPLIED SURFACE SCIENCE. - ISSN 0169-4332. - STAMPA. - 638:(2023). [10.1016/j.apsusc.2023.158032]
Tailoring the wettability of surface-textured copper using sub-THz bursts of femtosecond laser pulses
Volpe, Annalisa;
2023-01-01
Abstract
In this work, copper surfaces were textured with sub-Terahertz bursts of femtosecond pulses. The wettability of Cu textured surfaces was investigated by measuring the static water contact angle (WCA) as a function of the number of sub-pulses and the intra-burst frequency. A superhydrophobic, antiadhesive response was observed when using bursts with a high number of sub-pulses (equal to or higher than 16) or a high intra-burst frequency (equal to or higher than 0.09 THz). Such trend was ascribed to the generation, under specific laser irradiation conditions, of a double-scale hierarchical texture on the sample surface, formed by sub-micro patterns with fine periodic ripples (LIPSS, Laser-Induced Periodic Surface Structures) and random nanoparticle decoration. Such texture enhances the hydrophobic behavior given by inherent adsorption of adventitious hydrocarbons on laser processed and thermally-treated metal targets.| File | Dimensione | Formato | |
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