Fabrication of a Simultaneous Highly Transparent and Highly Hydrophobic Fibrous Films

This paper discusses the fabrication and characterization of electrospun nanofiber scaffolds made of polystyrene (PS). The scaffolds were characterized in terms of their basis material molecular weight, fiber diameter distribution, contact angles, contact angle hysteresis, and transmittance. We prop...

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Main Authors: Doo-Hyeb Youn, Kyu-Sung Lee, Sun-Kyu Jung, Mangu Kang
Format: Article
Language:English
Published: MDPI AG 2021-06-01
Series:Applied Sciences
Subjects:
Online Access:https://www.mdpi.com/2076-3417/11/12/5565
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spelling doaj-292e07230de343d2a6af8b36e9a6266c2021-07-01T00:19:36ZengMDPI AGApplied Sciences2076-34172021-06-01115565556510.3390/app11125565Fabrication of a Simultaneous Highly Transparent and Highly Hydrophobic Fibrous FilmsDoo-Hyeb Youn0Kyu-Sung Lee1Sun-Kyu Jung2Mangu Kang3New Materials Research Group, Electronics and Telecommunications Research Institute, 218 Gajeong-ro, Yuseong-gu, Daejeon 34129, KoreaNew Materials Research Group, Electronics and Telecommunications Research Institute, 218 Gajeong-ro, Yuseong-gu, Daejeon 34129, KoreaNew Materials Research Group, Electronics and Telecommunications Research Institute, 218 Gajeong-ro, Yuseong-gu, Daejeon 34129, KoreaNew Materials Research Group, Electronics and Telecommunications Research Institute, 218 Gajeong-ro, Yuseong-gu, Daejeon 34129, KoreaThis paper discusses the fabrication and characterization of electrospun nanofiber scaffolds made of polystyrene (PS). The scaffolds were characterized in terms of their basis material molecular weight, fiber diameter distribution, contact angles, contact angle hysteresis, and transmittance. We propose an aligned electrospun fiber scaffold using an alignment tool (alignment jig) for the fabrication of highly hydrophobic (θ<sub>W</sub> > 125°) and highly transparent (T > 80.0%) films. We fabricated the alignment jig to align the electrospun fibers parallel to each other. The correlation between the water contact angles and surface roughness of the aligned electrospun fibers was investigated. We found that the water contact angle increased as the surface roughness was increased. Therefore, the hydrophobic properties of the aligned electrospun fibers were enhanced by increasing the surface roughness. With the change in the electrospinning mode to produce aligned fibers rather than randomly distributed fibers, the transmittance of the aligned electrospun fibers increased. The increase in the porous area, leading to better light transmittance in comparison to randomly distributed light scattering through the aligned electrospun fibers increased with the fibers. Through the above investigation of electrospinning parameters, we obtained the simultaneous transparent (>80%) and hydrophobic (θ<sub>W</sub> > 140°) electrospun fiber scaffold. The aligned electrospun fibers of PS had a maximum transmittance of 91.8% at the electrospinning time of 10 s. The water contact angle (WCA) of the aligned electrospun fibers increased from 77° to 141° as the deposition time increased from 10 s to 40 s. The aligned fibers deposited at 40 s showed highly hydrophobic characteristics (θ<sub>W</sub> > 140°).https://www.mdpi.com/2076-3417/11/12/5565electrospinningfiber alignmenthydrophobicitytransparencysolar cell
collection DOAJ
language English
format Article
sources DOAJ
author Doo-Hyeb Youn
Kyu-Sung Lee
Sun-Kyu Jung
Mangu Kang
spellingShingle Doo-Hyeb Youn
Kyu-Sung Lee
Sun-Kyu Jung
Mangu Kang
Fabrication of a Simultaneous Highly Transparent and Highly Hydrophobic Fibrous Films
Applied Sciences
electrospinning
fiber alignment
hydrophobicity
transparency
solar cell
author_facet Doo-Hyeb Youn
Kyu-Sung Lee
Sun-Kyu Jung
Mangu Kang
author_sort Doo-Hyeb Youn
title Fabrication of a Simultaneous Highly Transparent and Highly Hydrophobic Fibrous Films
title_short Fabrication of a Simultaneous Highly Transparent and Highly Hydrophobic Fibrous Films
title_full Fabrication of a Simultaneous Highly Transparent and Highly Hydrophobic Fibrous Films
title_fullStr Fabrication of a Simultaneous Highly Transparent and Highly Hydrophobic Fibrous Films
title_full_unstemmed Fabrication of a Simultaneous Highly Transparent and Highly Hydrophobic Fibrous Films
title_sort fabrication of a simultaneous highly transparent and highly hydrophobic fibrous films
publisher MDPI AG
series Applied Sciences
issn 2076-3417
publishDate 2021-06-01
description This paper discusses the fabrication and characterization of electrospun nanofiber scaffolds made of polystyrene (PS). The scaffolds were characterized in terms of their basis material molecular weight, fiber diameter distribution, contact angles, contact angle hysteresis, and transmittance. We propose an aligned electrospun fiber scaffold using an alignment tool (alignment jig) for the fabrication of highly hydrophobic (θ<sub>W</sub> > 125°) and highly transparent (T > 80.0%) films. We fabricated the alignment jig to align the electrospun fibers parallel to each other. The correlation between the water contact angles and surface roughness of the aligned electrospun fibers was investigated. We found that the water contact angle increased as the surface roughness was increased. Therefore, the hydrophobic properties of the aligned electrospun fibers were enhanced by increasing the surface roughness. With the change in the electrospinning mode to produce aligned fibers rather than randomly distributed fibers, the transmittance of the aligned electrospun fibers increased. The increase in the porous area, leading to better light transmittance in comparison to randomly distributed light scattering through the aligned electrospun fibers increased with the fibers. Through the above investigation of electrospinning parameters, we obtained the simultaneous transparent (>80%) and hydrophobic (θ<sub>W</sub> > 140°) electrospun fiber scaffold. The aligned electrospun fibers of PS had a maximum transmittance of 91.8% at the electrospinning time of 10 s. The water contact angle (WCA) of the aligned electrospun fibers increased from 77° to 141° as the deposition time increased from 10 s to 40 s. The aligned fibers deposited at 40 s showed highly hydrophobic characteristics (θ<sub>W</sub> > 140°).
topic electrospinning
fiber alignment
hydrophobicity
transparency
solar cell
url https://www.mdpi.com/2076-3417/11/12/5565
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