在苛刻条件下通过垂直聚合利用超疏水玻璃微纤维膜实现稳健且连续的油水分离。

Robust and continuous oil/water separation with superhydrophobic glass microfiber membrane by vertical polymerization under harsh conditions.

作者信息

Woo Seeun, Park Hong Ryul, Park Jinyoung, Yi Johan, Hwang Woonbong

机构信息

Department of Mechanical Engineering, Pohang University of Science and Technology (POSTECH), Pohang, Gyeongbuk, 37673, Republic of Korea.

出版信息

Sci Rep. 2020 Dec 8;10(1):21413. doi: 10.1038/s41598-020-78271-9.

DOI:10.1038/s41598-020-78271-9

PMID:33293602

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7722867/

Abstract

We report a robust and continuous oil/water separation with nanostructured glass microfiber (GMF) membranes modified by oxygen plasma treatment and self-assembled monolayer coating with vertical polymerization. The modified GMF membrane had a nanostructured surface and showed excellent superhydrophobicity. With an appropriate membrane thickness, a high water intrusion pressure (< 62.7 kPa) was achieved for continuous pressure-driven separation of oil/water mixtures with high flux (< 4418 L h m) and high oil purity (> 99%). Under simulated industrial conditions, the modified GMF membrane exhibited robust chemical stability against strong acidic/alkaline solutions and corrosive environments. The proposed superhydrophobic composite coating technique is simple, low cost, environmentally friendly, and suitable for the mass production of scalable three-dimensional surfaces. Moreover, its stability and customizable functionality offers considerable potential for a wide range of novel applications.

摘要

我们报道了一种通过氧等离子体处理和垂直聚合自组装单分子层涂层改性的纳米结构玻璃微纤维（GMF）膜实现的稳健且连续的油水分离。改性后的GMF膜具有纳米结构表面，并表现出优异的超疏水性。通过适当的膜厚度，在连续压力驱动下分离油水混合物时，可实现较高的水侵入压力（<62.7 kPa）、高通量（<4418 L h m）和高油纯度（>99%）。在模拟工业条件下，改性GMF膜对强酸性/碱性溶液和腐蚀性环境表现出强大的化学稳定性。所提出的超疏水复合涂层技术简单、低成本、环境友好，适用于可扩展三维表面的大规模生产。此外，其稳定性和可定制功能为广泛的新型应用提供了巨大潜力。

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在苛刻条件下通过垂直聚合利用超疏水玻璃微纤维膜实现稳健且连续的油水分离。

Robust and continuous oil/water separation with superhydrophobic glass microfiber membrane by vertical polymerization under harsh conditions.

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