TY - DATA T1 - Data underlying the publication: Asymmetric polyelectrolyte multilayer nanofiltration membranes: Structural characterisation via transport phenomena. PY - 2023/06/02 AU - Moritz Junker AU - Esra te Brinke AU - Clara Vall Compte AU - Rob Lammertink AU - Joris de Grooth AU - Wiebe M. de Vos UR - DO - 10.4121/c101c837-555a-4c2c-8290-69980f520bdd.v1 KW - Nanofiltration KW - Polyelectrolyte multilayers KW - Transport modeling N2 -
This dataset is meant as supplementary information to the publication: Junker, Moritz A., et al. "Asymmetric polyelectrolyte multilayer nanofiltration membranes: Structural characterisation via transport phenomena." Journal of Membrane Science 681 (2023): 121718.
In this work, the fabrication and performance of asymmetric polyelectrolyte multilayer based nanofiltration membranes were analysed by a combination of experimental filtration studies and theoretical transport modeling. Experimental methods applied for membrane characterisation include pure water permeability, single salt retention, polyethylene glycol retention, and ternary ion retention. Additionally, polyelectrolyte multilayers were studied on a model surface via spectroscopic ellipsometry. Based on experimental results, different pore flow models were parametrised to describe and predict the filtration behaviour.
The dataset contains all relevant data for the study. This includes experimental and theoretical results. More information on the specific files can be found within the README.txt file.
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