2019
DOI: 10.1080/02670844.2018.1509813
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Fabrication of icephobic aluminium surfaces by atmospheric plasma jet polymerisation

Abstract: Atmospheric plasma treatment followed by a plasma polymerisation coating produced an aluminium surface having high water repellency and icephobicity. We varied the plasma parameters and the amount of hexamethyldisiloxane precursor to optimise surface hydrophobicity. The static contact and sliding angles of the surface reached 163°and <1°, respectively. Furthermore, the prepared surfaces remained superhydrophobic after seven days of immersion in acid-base media as well as after five icing/de-icing cycles.

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Cited by 27 publications
(13 citation statements)
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“…The surfaces retained their superhydrophobic behavior upon storage in air or immersion in water even after six months. Jafari et al [88] proposed another route towards fabrication of superhydrophobic aluminum based on dual-step processing employing successive plasma treatments in atmospheric pressure. First, an air plasma treatment was applied to aluminum using a commercial plasma jet (PlasmaTreat) to induce initial roughness and, next, a rough Jafari et al [88] proposed another route towards fabrication of superhydrophobic aluminum based on dual-step processing employing successive plasma treatments in atmospheric pressure.…”
Section: Plasma Polymerized Coatingsmentioning
confidence: 99%
See 1 more Smart Citation
“…The surfaces retained their superhydrophobic behavior upon storage in air or immersion in water even after six months. Jafari et al [88] proposed another route towards fabrication of superhydrophobic aluminum based on dual-step processing employing successive plasma treatments in atmospheric pressure. First, an air plasma treatment was applied to aluminum using a commercial plasma jet (PlasmaTreat) to induce initial roughness and, next, a rough Jafari et al [88] proposed another route towards fabrication of superhydrophobic aluminum based on dual-step processing employing successive plasma treatments in atmospheric pressure.…”
Section: Plasma Polymerized Coatingsmentioning
confidence: 99%
“…Jafari et al [88] proposed another route towards fabrication of superhydrophobic aluminum based on dual-step processing employing successive plasma treatments in atmospheric pressure. First, an air plasma treatment was applied to aluminum using a commercial plasma jet (PlasmaTreat) to induce initial roughness and, next, a rough Jafari et al [88] proposed another route towards fabrication of superhydrophobic aluminum based on dual-step processing employing successive plasma treatments in atmospheric pressure. First, an air plasma treatment was applied to aluminum using a commercial plasma jet (PlasmaTreat) to induce initial roughness and, next, a rough organosilicon coating was deposited from N 2 /HMDSO discharges using the same device.…”
Section: Plasma Polymerized Coatingsmentioning
confidence: 99%
“…Therefore, we do not discuss methods to create superhydrophobic surfaces other than templating or replication-based means. Thus, the methods of spray coating, spin coating, plasma surface treatment, SAM coating, , dip coating, , electrospinning, or specific case study techniques remain out of the scope of this review. Many of these methods are not yet practical in an industrial context as they are only achievable when starting them during the initial steps of production .…”
Section: Introductionmentioning
confidence: 99%
“…To reduce this damage to vulnerable outdoor infrastructure, attempts have been made to create anti-icing/icephobic surfaces [1][2][3][4][5][6][7][8]. Icephobic surfaces are normally defined by an ice adhesion strength of <100 kPa [9].…”
Section: Introductionmentioning
confidence: 99%