Multiple air-bubble enhanced oil rupture on nanostructured cellulose fabric for easy-oil cleaning fouled in a dry state

Authors
Kim, Min-SungKo, Tae-JunKim, Seong JinLee, Young-A.Oh, Kyu HwanMoon, Myoung-Woon
Issue Date
2019-10-10
Publisher
NATURE PUBLISHING GROUP
Citation
SCIENTIFIC REPORTS, v.9
Abstract
Nanostructured cellulose fabric with an air-bubble-enhanced anti-oil fouling property is introduced for quick oil-cleaning by water even with the surface fouled by oil before water contact under a dry state. It is very challenging to recover the super-hydrophilicity because once the surface is oil-fouled, it is hard to be re-wetted by water. Anti-oil-fouling under a dry state was realized through two main features of the nanostructured, porous fabric: a low solid fraction with high-aspect-ratio nanostructures significantly increasing the retracting forces, and trapped multiscale air bubbles increasing the buoyancy and backpressure for an oil-layer rupture. The nanostructures were formed on cellulose-based rayon microfibers through selective etching with oxygen plasma, forming a nanoscale open-pore structure. Viscous crude oil fouled on a fabric under a dry state was cleaned by immersion into water owing to a higher water affinity of the rayon material and low solid fraction of the high-aspect-ratio nanostructures. Air bubbles trapped in dry porous fibers and nanostructures promote oil detachment from the fouled sites. The macroscale bubbles add buoyancy on top of the oil droplets, enhancing the oil receding at the oil-water-solid interface, whereas the relatively smaller microscale bubbles induce a backpressure underneath the oil droplets. The oil-proofing fabric was used for protecting underwater conductive sensors, allowing a robot fish to swim freely in oily water.
Keywords
CONTACT-ANGLE HYSTERESIS; WATER; SURFACES; THICKNESS; TRANSITIONS; CONTACT-ANGLE HYSTERESIS; WATER; SURFACES; THICKNESS; TRANSITIONS; 친수; 기름회수; 나노구조; 버블
ISSN
2045-2322
URI
https://pubs.kist.re.kr/handle/201004/119455
DOI
10.1038/s41598-019-51216-7
Appears in Collections:
KIST Article > 2019
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