Slanted nanostructures capped with SiO2 nanospheres for asymmetric hydrophilicity inducing rapid unidirectional water spreading

Authors
Lan Thi PhanPark, Sang JinMoon, Myoung-Woon
Issue Date
2022-01
Publisher
Elsevier BV
Citation
Applied Surface Science, v.573
Abstract
Two levels of nanostructures, consisting of slanted nanostructure and nanogroove, were fabricated on polymeric surface through a single step oxygen plasma processing with tuning incident angles. A polymeric sheet embedded with the SiO2 nanospheres was exposed to the oxygen plasma through Faraday cages to induce anisotropic etching. The nanopillars were slanted by changing the relative angle between plasma ions and polymer substrate from 10 to 80 degrees. The nanogrooves were also formed among the slanted nanopillars along the trajectory of plasma ions. Together with the nanogrooves, the slanted nanopillars enhanced unidirectional water spreading. The wetting behaviors, with gradual transformation through four stages with different degree of hydrophilicity (super-, strong, moderate, and mild hydrophilicity), were observed. The surface with moderate hydrophilicity showed strong asymmetric wetting for unidirectional water spreading, against the gravity force, at very high velocity (up to 1.5 similar to 4.17 mm/sec). This easy and simple fabrication method of slanted nanostructures could be utilized in a wide range of applications requiring long-lasting hydrophilicity with asymmetric wetting, such as, microfluidic, oil-water separation, water-harvesting, and biomedicines.
Keywords
HYDROPHOBIC RECOVERY; PERISTOME SURFACE; SUPERHYDROPHOBICITY; CRYSTALLINITY; TRANSPORT; MODEL; Directional plasma etching; Slanted nanostructures; Asymmetric hydrophilicity; Unidirectional water spreading
ISSN
0169-4332
URI
https://pubs.kist.re.kr/handle/201004/115843
DOI
10.1016/j.apsusc.2021.151625
Appears in Collections:
KIST Article > 2022
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