Kaitlyn P. Brickey scite author profile

Biological membranes can achieve remarkably high permeabilities, while maintaining ideal selectivities, by relying on well-defined internal nanoscale structures in the form of membrane proteins. Here, we apply such design strategies to desalination membranes. A series of polyamide desalination membranes—which were synthesized in an industrial-scale manufacturing line and varied in processing conditions but retained similar chemical compositions—show increasing water permeability and active layer thickness with constant sodium chloride selectivity. Transmission electron microscopy measurements enabled us to determine nanoscale three-dimensional polyamide density maps and predict water permeability with zero adjustable parameters. Density fluctuations are detrimental to water transport, which makes systematic control over nanoscale polyamide inhomogeneity a key route to maximizing water permeability without sacrificing salt selectivity in desalination membranes.

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FIB-SEM tomography reveals the nanoscale 3D morphology of virus removal filters

Brickey

Zydney

Gomez

2021

Journal of Membrane Science

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Kaitlyn P. Brickey

Nanoscale control of internal inhomogeneity enhances water transport in desalination membranes

FIB-SEM tomography reveals the nanoscale 3D morphology of virus removal filters

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