AUTHOR=Epsztein Razi TITLE=Intrinsic limitations of nanofiltration membranes to achieve precise selectivity in water-based separations JOURNAL=Frontiers in Membrane Science and Technology VOLUME=1 YEAR=2022 URL=https://www.frontiersin.org/journals/membrane-science-and-technology/articles/10.3389/frmst.2022.1048416 DOI=10.3389/frmst.2022.1048416 ISSN=2813-1010 ABSTRACT=

Over the last decades, nanofiltration (NF) membranes have been used to selectively remove certain solutes from water with recent interest targeting more challenging separations that require precise selectivity between solutes. In this perspective article, we aim to challenge (but not disprove) the prevalent notion that NF membranes are suitable for precise separations. We first provide and analyze selectivity data from the literature of three important separations including monovalent-divalent ion selectivity, separations involving organic molecules, and the more ambitious separations of ions with the same charge. We then introduce the terms rejection-based selectivity and transport-based selectivity to distinguish between the commonly “rough” separations pursued in NF (e.g., water softening) and the more visionary separations required for precise selectivity (e.g., transport of lithium through specific recognition sites), respectively. Using these terms, we discuss two major intrinsic limitations to achieve precise selectivity in NF systems; namely, the need for a solute-specific membrane that can transport simultaneously additional species (i.e., water and the complementary salt ion) and the detrimental effect of concentration polarization. We conclude with guidelines and principles to overcome these limitations.