The separation of oil from water in emulsions is a challenging and costly problem in several industrial sectors. Oil–water separation using electrospun fibers is a relatively new but highly promising...doi:10.1007/978-3-319-78163-1_7Mohammad Mahdi A. Shirazi...
The oil sorption capacity has been proven to be further enhanced because the nanofibrous sorbent can drive the oil not only into the voids between fibers but also into its multi-pores [42]. To date, many types of nanofibrous sorbents have been developed for oil sorption, and they can be ...
Oil/water separationPolymeric nanofibers with superhydrophobic property have attracted vast interest in various applications, especially oil/water separation. In this work, superhydrophobic PLA nanofibers have been fabricated by an electrospinning process and treatment with a hydrophobic agent, alkyl ketene ...
J. Jaafar, in Separation and Purification Technology, 2020 2.4 Electrospun membrane Electrospun nanofiber (ENF) membranes are one of the commonly-used membranes in the treatment of oily wastewater. This is in view of to their continuous, entangled fibers and three-dimensional porous network which ...
J Liu,J Yang,S Wang - 《Desalination the International Journal on the Science & Technology of Desalting & Water Purification》 被引量: 21发表: 2014年 In-situ growth of robust and superhydrophilic nano-skin on electrospun Janus nanofibrous membrane for oil/water emulsions separation An in-situ ...
& Wang, P. A self-cleaning underwater superoleophobic mesh for oil-water separation. Sci. Rep. 3 (2013), 10.1038/srep02326. Zhao, Y., Tang, Y., Wang, X. & Lin, T. Superhydrophobic cotton fabric fabricated by electrostatic assembly of silica nanoparticles and its remarkable buoyancy. Appl...
It has been reported that some metal-based material have been incorporated into electrospun nanofibers, which could significantly enhance the composite fibers to achieve desired functional properties28. Additionally, iron-based materials were frequently considered as adsorbent for arsenic removal from water ...
It is particularly effective as a filter material in packaging applications. Additionally, cellulose can be electrospun into ultrafine fibers as small as 300 nm, featuring low thermal expansion and maintaining a balance of being lightweight yet strong.2,3 ...
Phase separation is proposed as the main mechanism behind the formation of porous fibers. When more volatile solvents are used, solvent-rich regions begin to form during electrospinning that transform into pores14. Another method of producing porous nanofibers is the spinning of a blend of two ...
Electrospinning is a straightforward method to fabricate continuous nanofibers from polymer solutions. These fibers have unique characteristics like high aspect ratio, surface area, easy processability, and scaling-up ability that make these fibers attra