材料科学
光催化
吸附
化学工程
薄膜
纳米技术
物理化学
催化作用
有机化学
工程类
化学
作者
Josiah Shondo,Salih Veziroğlu,Tim Tjardts,Jacek Fiutowski,Stefan Schröder,Yogendra Mishra,Thomas Strunskus,Horst‐Günther Rubahn,Franz Faupel,Oral Cenk Aktas
标识
DOI:10.1002/admi.202102126
摘要
Abstract Various methods are developed and used to treat oil‐contaminated water, including mechanical separation, chemical treatment, biological treatment, membrane filtration, and sorption. Oil clean‐up via selective sorption of the oil by an engineered surface is the most accepted technique due to its high removal efficiency and low cost. Here, a multifunctional surface providing highly selective oil sorption and clean‐up capability via the photocatalytic decomposition is proposed. This novel surface is named as the “three‐in‐one (3‐in‐1) surface” since it is composed of 1) a highly photocatalytic layer, 2) micro‐ and nanostructures, and 3) a low surface energy layer. First, the TiO 2 photocatalytic layer is prepared by magnetron sputtering. Then flowerlike Ag nanoplates are photocatalytically deposited on the sputtered TiO 2 layer. Afterward, a low surface energy layer, poly‐1,3,5‐trivinyl‐1,3,5‐trimethylcyclotrisiloxane (p‐V 3 D 3 ), is over‐coated on Ag/TiO 2 surface by initiated chemical vapor deposition (iCVD) while retaining the topographical features of the surface (micro‐ and nanoscale surface structures). The p‐V 3 D 3 /Ag/TiO 2 surface demonstrates a high selective adsorption to oil whereas simultaneously it shows extreme repellency to water. The p‐V 3 D 3 /Ag/TiO 2 surface can also be photocatalytically cleaned up and this may find applications in various technology fields including water treatment, microfluidics, self‐cleaning, and water harvesting.
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