Sub–10 nm polyamide nanofilms with ultrafast solvent transport for molecular separation
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Abstract
Membranes with unprecedented solvent permeance and high retention of dissolved solutes are needed to reduce the energy consumed by separations in organic liquids. We used controlled interfacial polymerization to form free-standing polyamide nanofilms less than 10 nanometers in thickness, and incorporated them as separating layers in composite membranes. Manipulation of nanofilm morphology by control of interfacial reaction conditions enabled the creation of smooth or crumpled textures; the nanofilms were sufficiently rigid that the crumpled textures could withstand pressurized filtration, resulting in increased permeable area. Composite membranes comprising crumpled nanofilms on alumina supports provided high…
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2,005
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Authors
3Topics & keywords
Topics
Keywords
- Polyamide
- Membrane
- Solvent
- Chemical engineering
- Thin-film composite membrane
- Materials science
- Polymer
- Ultrashort pulse
UN Sustainable Development Goals
- Affordable and clean energy
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