Rapid Formation of Transparent Superhydrophobic Film on Glasses by He/CH4/C4F8Plasma Deposition at Atmospheric Pressure

Han, Duksun; Moon, Se Youn

doi:10.1002/ppap.201400145

Cited by 26 publications

(16 citation statements)

References 41 publications

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“…It was conducted in order to form an oil-water separating membrane using a cylindrical atmospheric pressure plasma source (Supplementary Figure S1 ). As reported in a previous study, the atmospheric pressure plasma method easily enables the formation of superhydrophilic, hydrophobic or superhydrophobic surfaces 21 – 24 . Based on these findings, via the plasma parameters control in Table 1 , selective water/oil wettability properties were conferred to metal mesh membranes (Fig.…”

Section: Resultsmentioning

confidence: 75%

“…Indeed, amphiphobic surfaces that possess both water and oil repellency properties, i.e. case 3, may be used in applications such as anti-bio fouling surfaces, stain-free material, spill-resistant protective wear, self-cleaning surfaces, and drag reduction material 10 , 11 , 21 , 28 , 29 . Therefore, in order to develop artificial amphiphobic surfaces currently, efficient but complex techniques have been extensively studied; in this study, such surfaces (Fig.…”

Section: Resultsmentioning

confidence: 99%

“…This limitation is the reason the emerging atmospheric pressure plasma technology is the method of choice for surface functionalization. Atmospheric pressure plasma processes are low cost, allow the treatment of heat-sensitive materials due to their low temperature plasma, can be performed in open-air, offer the possibility to treat large areas, and enable the fast modification of surfaces with readily tunable chemistry and morphology 21 – 24 .…”

Section: Introductionmentioning

confidence: 99%

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Rapid and selective surface functionalization of the membrane for high efficiency oil-water separation via an atmospheric pressure plasma process

You

Kang

Mauchauffé

et al. 2017

Sci Rep

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Oil-water separation is a worldwide challenge because of the increasing production of industrial oily wastewater and frequent oil spills. The growing environmental and economic demands emphasize the need to develop effective solutions to separate oil and water. Recently, oil-water separation methods were developed by tuning the wettability of membranes via surface functionalization. However, the industrialization of such methods remains challenging due to the easy-fouling, high cost and complex fabrication. Herein, a simple and rapid pathway to separate oil from oil-water mixtures is reported using plasma surface functionalization in an open-air environment. The fine tuning and study of the plasma process parameters enables the selective functionalization of each side of the membranes which led respectively to a superhydrophobic-superoleophilic and superhydrophobic-oleophobic sides. The successful separation, without any external force, of a 50 mL oil-water solution in 6 minutes was achieved. This work paves the way for an efficient, low cost and easily upscalable method for oil-water separation due to the high versatility of the atmospheric pressure plasma processes.

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Section: Resultsmentioning

confidence: 75%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Rapid and selective surface functionalization of the membrane for high efficiency oil-water separation via an atmospheric pressure plasma process

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Kang

Mauchauffé

et al. 2017

Sci Rep

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“…The power electrode was surrounded by a dielectric tube to prevent arcing and to sustain stable discharge. 9 The cover glasses (Marienfeld, 76 mm × 26 mm × 1 mm thickness) were moved left and right on a motorized plate to ensure uniform modification. Helium was flowed at a fixed rate of 4 liters per minute (lpm); otherwise, the flow rates of CH 4 and C 4 F 8 gas were independently controlled by mass flow controller (MFC, AtoVac AFC500).…”

Section: Methodsmentioning

confidence: 99%

Improvement of the self-cleaning capabilities and transparency of cover glasses for solar cell applications by modification with atmospheric pressure plasma

et al. 2016

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Using a cover glass is indispensable for protecting solar cells in photovoltaic systems. Herein, the surface of the cover glass was modified by atmospheric pressure plasma to enhance the self-cleaning effect without degrading the transmittance. A lower surface energy was achieved by depositing fluorocarbon polymers, and a micro-nano multi-scale morphology was built on the cover glass within 50 s. These two properties led to an increase in the hydrophobicity, which enhanced the self-cleaning effect of the surface. The morphology of the surface also helped to improve the transparency by reducing reflections. Both the enhanced self-cleaning effect and the improved transparency induced by the atmospheric pressure plasma treatment were confirmed by analyzing the total conversion efficiency of a solar cell by outdoor field testing.

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“…24 Han and Moon described deposition on an optically transparent superhydrophobic glass surface with a mixture of He, CH 4 , and C 4 F 8 plasma at atmospheric pressure. 25 However, most of those plasma treatments cannot achieve super-hydrophobicity without additional surface modifications by expensive fluorinated hydrocarbons with high toxicity. Furthermore, most plasma sources except the atmospheric pressure plasma require special vacuum systems ultimately limiting their flexible fabrication.…”

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confidence: 99%

One-step preparation of transparent superhydrophobic coatings using atmospheric arc discharge

Huang

Wang

et al. 2015

Applied Physics Letters

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Rapid Formation of Transparent Superhydrophobic Film on Glasses by He/CH₄/C₄F₈Plasma Deposition at Atmospheric Pressure

Cited by 26 publications

References 41 publications

Rapid and selective surface functionalization of the membrane for high efficiency oil-water separation via an atmospheric pressure plasma process

Rapid and selective surface functionalization of the membrane for high efficiency oil-water separation via an atmospheric pressure plasma process

Improvement of the self-cleaning capabilities and transparency of cover glasses for solar cell applications by modification with atmospheric pressure plasma

One-step preparation of transparent superhydrophobic coatings using atmospheric arc discharge

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