Powered by:


Facile fabrication of super-hydrophobic FAS modified electroless Ni-P coating meshes for rapid water-oil separation

The development of the super-hydrophobic coating/film mesh for directly separating oil from water is greatly desired due to the high separation efficiency and the steady recyclability. Here we describe a facile and inexpensive method for fabricating the super-hydrophobic/super-oleophilic stainless steel meshes with the FAS modified electroless Ni-P composite coatings. The Ni-P particles on the mesh are spherical with a uniform size diameter and relatively concatenate each other to form a nanoscale rough surface. The static contact angles of the as-prepared meshes fall in between 124.4??1.5 and 167.9??2.1. These meshes exhibit non-sticking of water, anti-fouling, and excellent penetrating through the oil properties. The prepared meshes can rapidly and continuously separate water-oil mixture without resorting to any extra driving force and the chemical agent. The best separation efficiency is 96.8%. The super-hydrophobic mesh is steady and reliable for a long-term separation of the water-oil mixtures. Finally, a separation mechanism of the super-hydrophobic meshes for the water-oil mixtures is proposed. We anticipate that the prepared meshes could provide a candidate application to effective waste oil cleanup and other rapid water-oil separation processes.

» Author: Yongwei Cai, Shuo Li, Zhiliang Cheng, Guiying Xu, Xuejun Quan, Yuting Zhou

» Reference: Colloids and Surfaces A: Physicochemical and Engineering Aspects, Volume 540

» Publication Date: 05/03/2018

» More Information

« Go to Technological Watch


[18/07/2018] - $1.4 Bn Uncoated Paint Protection Film Market - Global Industry Analysis 2016-2024 -

[18/07/2018] - PPG Appoints Malesia Dunn, Executive Director, PPG Foundation and Corporate Global Social Responsibility

[18/07/2018] - EREMA Discovery Days 2018: The future of the circular economy

[17/07/2018] - LyondellBasell leads first-half materials news

This project has received funding from the European Union Seventh Framework Programme (FP7/2007-2013) under grant agreement n [310187].