Water condensation behavior on the surface of a network of superhydrophobic carbon fibers with high-aspect-ratio nanostructures

Authors
Ko, Tae-JunHer, Eun KyuShin, BongsuKim, Ho-YoungLee, Kwang-RyeolHong, Bo KiKim, Sae HoonOh, Kyu HwanMoon, Myoung-Woon
Issue Date
2012-11
Publisher
PERGAMON-ELSEVIER SCIENCE LTD
Citation
CARBON, v.50, no.14, pp.5085 - 5092
Abstract
We have explored the condensation behavior of water on a superhydrophobic carbon fiber (CF) network with high-aspect-ratio hair-like nanostructures. Nanostructures ranging from nanopillars to hairy shapes were grown on CFs by preferential oxygen plasma etching. Superhydrophobic CF surfaces were achieved by application of a hydrophobic siloxanebased hydrocarbon coating, which increased the water contact angle from 147 degrees to 163 degrees and decreased the contact angle hysteresis from 71 degrees to below 5 degrees, sufficient to cause droplet roll-off from the surface. Water droplet nucleation and growth on the superhydrophobic CF were significantly retarded due to the high-aspect-ratio nanostructures under supersaturated vapor conditions. CFs are observed to wet with condensation between fibers of the pristine surface under super-saturated vapor conditions, which eventually leads to flooding. However, dropwise condensation became dominant in the superhydrophobic CF network, allowing for easy removal of the condensed droplets, which largely allowed the interstitial spaces of the fiber network to remain dry. It is implied that superhydrophobic CF can provide a passage for vapor or gas flow in wet environments such as a gas diffusion layer requiring the effective water removal in the operation of proton exchange membrane fuel cell. (c) 2012 Elsevier Ltd. All rights reserved.
Keywords
OXYGEN PLASMA MODIFICATION; SUPERCAPACITORS; ENERGY; OXYGEN PLASMA MODIFICATION; SUPERCAPACITORS; ENERGY; carbon fiber; nanostructuring; superhydrophobic; condensation
ISSN
0008-6223
URI
https://pubs.kist.re.kr/handle/201004/128724
DOI
10.1016/j.carbon.2012.06.048
Appears in Collections:
KIST Article > 2012
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