The separation of oil and water is

The separation of oil and water is an important pursuit for saving endangered environments. In 2010, the Gulf of Mexico oil spill widely and seriously damaged the ocean and coast near the oilfield. The number of similar accidents is increasing with the development of industry, and materials that can reduce environmental pollution are in high demanded. At the same time, in the area of analytical chemistry, the efficient separation of molecules is a key technique, which determines the efficiency and accuracy of chemical analysis and detection. For these purposes, hydrophobic porous materials are in common use, because hydrophobic surfaces effectively adsorb/absorb oily target compounds that are mixed with an aqueous phase. Therefore, many researchers have been studying hydrophobic porous materials and their application as oil/water separation media.1 Various chemical compositions have been investigated, such as carbon-based materials,2 metal oxide nanowires (such as manganese3, 4), biomass nanofibers (such as cellulose5, 6), organic polymers (such as polyester,7 polydivinylbenzene, and polythiophene8) and hydrophobic macroporous aerogels.9, 10 Other materials based on polydimethylsiloxane (PDMS) or fluorocarbon-coated materials,3, 7, 10, 11 and the design of a biomimetic rough surface, through the use of etching techniques, to enhance hydrophobicity6, 12 are also widely reported. However, these methods have problems such as complicated and lengthy processes and high costs for reagents and devices, which prevents the use of these materials in practical and commercial applications.