Chapter 9 - Electrospinning: A Versatile Fabrication Technique for Nanofibrous Membranes for Use in Desalination
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Ionic liquid-based composite materials for membrane applications
2023, Green Sustainable Process for Chemical and Environmental Engineering and Science: Applications of Advanced Nanostructured Materials in Wastewater RemediationUnderstanding the effect of polymer concentrations on the phase formation and activity of electrospun nanofibrous photocatalyst
2022, Colloids and Surfaces A: Physicochemical and Engineering AspectsCitation Excerpt :Electrospinning being a simple, versatile, and scalable technique proved successful in the fabrication of continuous micro to nanofibrous mat. The output obtained was highly explored, attracted and captured the attention to progress the research over various sectors due to its high throughput in a continuous process [19–24]. High voltage is applied to polymer fluid to introduce the electric charge within the fluid [25].
Electrospun nanofiber affinity membranes for water treatment applications: A review
2022, Journal of Water Process EngineeringMicro/nano-additive manufacturing and 3D printed surfaces for drinking water purification
2022, Nano-Enabled Technologies for Water RemediationWater desalination and ion removal using mixed matrix electrospun nanofibrous membranes: A critical review
2022, DesalinationCitation Excerpt :With advances in membrane production techniques and the development of electrospinning as an advanced method for the synthesis of highly porous nanofiber membranes in the 1990s, the idea of using fine solid particles in nanofiber matrices to eliminate the challenging problems of pristine polymer fibers also grew. With the use of ENMs in pressure-driven membrane processes for direct filtration and ion removal, as well as in non-isothermal MD-based desalination processes, it intensified in the 2010s [151,152]. Mixed matrix ENMs consisting of inorganic fillers embedded in polymer nanofibers have been considered by many researchers due to their ability to improve physico-chemical properties and separation performance of the membranes.
Comprehensive review of membrane design and synthesis for membrane distillation
2021, DesalinationCitation Excerpt :Electrospun nanofibrous membranes (ENMs) have recently received considerable attention due to their high versatility, multitude of attractive features, and great potential for use in the MD process. These membranes possess unique and promising inherent characteristics such as suitable pore size, high surface area to volume ratio, high strength to weight ratio, high porosity (up to 90%), high pore interconnectivity, uniform PSD, and tunable fiber diameter [1,5,214]. In addition, ENMs can be functionalized by facile surface treatment or incorporation of nanoparticles to endow high mechanical strength, superior anti-wetting capability, and superhydrophobic or omniphobic characteristics.