Connection between Intrapore Free Energy, Molecule Permeation, and Selectivity of Nanofiltration Membranes

Abstract: Purification and separation by nanofiltration is a fascinating interdisciplinary topic that is being actively studied both in polymer science and nanoscience/nanotechnology. However, a comprehensive understanding of the separation mechanism based on a sound physical foundation for the nanofiltration process of aqueous solutions remains very challenging and not well established. To confront this issue, in this study we developed a physical model that is motivated by classic polymer physics for the permeation of… Show more

“…S11), indicating a nonlinear dependence of permeate flux on pressure. A recent theoretical study revealed that a chain of solvents must overcome a critical energy barrier before being able to permeate through the membrane pores ( 47 , 48 ), resulting in a nonlinear dependence of permeate flux on applied pressure (see derivation in the Supplementary Materials) ( 49 – 53 )J=k(PPc)exp(−PcP)where J is the permeate flux, k is a proportionality factor, P is the applied pressure, and P c is the critical pressure. On the basis of Eq.…”

Water transport in reverse osmosis membranes is governed by pore flow, not a solution-diffusion mechanism

“…S11), indicating a nonlinear dependence of permeate flux on pressure. A recent theoretical study revealed that a chain of solvents must overcome a critical energy barrier before being able to permeate through the membrane pores ( 47 , 48 ), resulting in a nonlinear dependence of permeate flux on applied pressure (see derivation in the Supplementary Materials) ( 49 – 53 )J=k(PPc)exp(−PcP)where J is the permeate flux, k is a proportionality factor, P is the applied pressure, and P c is the critical pressure. On the basis of Eq.…”

Water transport in reverse osmosis membranes is governed by pore flow, not a solution-diffusion mechanism

Linear relationship between lateral size of reduced graphene oxide (RGO) and water vapor barrier property in RGO/PEI composite membrane

Identifying optimal GO membranes for H2O/H2O2 separation through molecular dynamics simulations