Superhydrophilic Electrospun Polyamide-Imide Membranes for Efficient Oil/Water Separation under Gravity

Abstract: The efficient separation of oil/water mixtures by membrane technology is highly dependent on the performance of membrane materials. The emergence of electrospinning has opened up opportunities for designing super porous structures with excellent oil/water separation efficiency. Herein, we prepared electrospun nanofibrous membranes using a highly hydrophilic and thermomechanically stable polyamide-imide (PAI) polymers. The fabricated membranes by a set of optimized electrospinning processes were examined in the… Show more

“…In recent years, frequent oil spill accidents have inflicted devastating disasters upon marine ecosystems. , The proliferation of pharmaceutical factories and the petroleum industry has exacerbated the issue, leading to significant challenges in sustaining ecosystems and impeding further economic development. , In response to this grim situation, the treatment of oily wastewater has garnered considerable attention. , The development of strategic wastewater treatment technologies, including advanced oxidation, adsorption, photocatalytic degradation, biological treatment, and membrane filtration, has been driven by the urgency to address the escalating problem. , However, many of these technologies exhibit inherent drawbacks, such as poor hydrophobic stability, time-intensive processes, arduous energy utilization, mediocre performance, and the risk of secondary pollutants . Consequently, there is a growing interest in more practical methods for large-scale oily wastewater treatment, with a focus on the physical sorption of oil.…”

Hierarchical 0D CuO Wrapped by Petal-like 2D ZnO: A Strategic Approach of Superhydrophobic Melamine Sponge toward Wastewater Treatment

“…In recent years, frequent oil spill accidents have inflicted devastating disasters upon marine ecosystems. , The proliferation of pharmaceutical factories and the petroleum industry has exacerbated the issue, leading to significant challenges in sustaining ecosystems and impeding further economic development. , In response to this grim situation, the treatment of oily wastewater has garnered considerable attention. , The development of strategic wastewater treatment technologies, including advanced oxidation, adsorption, photocatalytic degradation, biological treatment, and membrane filtration, has been driven by the urgency to address the escalating problem. , However, many of these technologies exhibit inherent drawbacks, such as poor hydrophobic stability, time-intensive processes, arduous energy utilization, mediocre performance, and the risk of secondary pollutants . Consequently, there is a growing interest in more practical methods for large-scale oily wastewater treatment, with a focus on the physical sorption of oil.…”

Hierarchical 0D CuO Wrapped by Petal-like 2D ZnO: A Strategic Approach of Superhydrophobic Melamine Sponge toward Wastewater Treatment

“…Electrospun PAI nanofiber membranes are piezoelectric materials well-suited for energy harvesting and sensing applications at high temperatures. In another study [ 33 ], PAI was utilized in a separate investigation for the purpose of electrospinning in oil-waste water separation. The membranes demonstrated exceptional underwater anti-oil adhesion characteristics by effectively resisting n-hexane, mineral oil, n-hexadecane, and petrol droplets from their prewetted surfaces.…”

Optimization of Electrospun TORLON® 4000 Polyamide-Imide (PAI) Nanofibers: Bridging the Gap to Industrial-Scale Production

Condensation polymerization of 3,5-diaminobenzoic acid and isophthaloyl chloride yielding hydrophilic polyamide and its decoration in polyvinylidene difluoride membranes for the efficient separation of stable oil/water emulsions