Tunable mesoporous films from copolymers with degradable side chains as membrane precursors

Membrane-based separations have shown promise for a host of applications. Yet, the development of polymer materials suitable for the preparation of membranes with tunable pore sizes between 2 and 10 nm remains challenging. In this study, we utilized poly[styrene-co-oligo(lactide) methacrylate] copol...

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Bibliographic Details
Published in:Journal of membrane science 2018-12, Vol.567 (C), p.104-114
Main Authors: Bush, Aaron M., Ford, Hunter O., Gao, Feng, Summe, Mark J., Rouvimov, Sergei, Schaefer, Jennifer L., Phillip, William A., Guo, Ruilan
Format: Article
Language:English
Subjects:
Nanofiltration membrane
Ostwald ripening
Polylactide
Polystyrene
Statistical copolymer
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Summary:Membrane-based separations have shown promise for a host of applications. Yet, the development of polymer materials suitable for the preparation of membranes with tunable pore sizes between 2 and 10 nm remains challenging. In this study, we utilized poly[styrene-co-oligo(lactide) methacrylate] copolymers containing equal mass fractions of styrene and oligo(lactide) methacrylate as membrane precursors. The side chain of the oligo(lactide) methacrylate served as a sacrificial pore template, and by controlling the degree of lactic acid polymerization, n, between n = 21 and n = 40 the size of the pore templating domains could be tuned. After films were treated with a basic NaOH solution to hydrolyze the oligo(lactide) side chains, the porous films had well-defined pore sizes despite evidence of pore collapse. Poly(ethylene oxide) was filtered from methanol based on molecular size. Furthermore, we demonstrated that pore-solute interactions play a significant role in membrane performance and can lead to the selective removal or enrichment of solutes that possess characteristic dimensions several times smaller than the pore size of the membrane. Specifically, using a membrane with a pore diameter of 16 nm, Naphthol Yellow S (358 g mol−1) was rejected ~62% due to electrostatic repulsion and Martius Yellow (234 g mol−1) was enriched 4-fold due to hydrogen bonding between the solute and membrane pore. [Display omitted] •Prepared films from poly[styrene-co-oligo(lactide) methacrylate] copolymers.•Characterized film structure before and after hydrolysis of oligo(lactide) domains.•Mesoporous polystyrene membranes showed evidence of pore collapse.•Mesoporous membranes filtered polyethylene oxide from water based on solute size.•Mesoporous membranes effected dye separations based on chemical affinity.
ISSN:0376-7388
1873-3123
DOI:10.1016/j.memsci.2018.08.069