Self-assembled block copolymer thin films as water filtration membranes

William A. Phillip; Brandon O'neill; Marc Rodwogin; Marc A. Hillmyer; E. L. Cussler

doi:10.1021/am900882t

Self-assembled block copolymer thin films as water filtration membranes

William A. Phillip, Brandon O'neill, Marc Rodwogin, Marc A. Hillmyer, E. L. Cussler

Research output: Contribution to journal › Article › peer-review

360 Scopus citations

Abstract

Nanoporous membranes containing monodisperse pores of 24 nm diameter are fabricated using poly(styrene-b-lactide) block copolymers to template the pore structure. A 4 μm thin film of the block copolymer is cast onto a microporous membrane that provides mechanical reinforcement; by casting the copolymer film from the appropriate solvents and controlling the solvent evaporation rate, greater than 100 cm² of a thin film with polylactide cylinders oriented perpendicular to the thin dimension is produced. Exposing the composite membrane to a dilute aqueous base selectively etches the polylactide block, producing the porous structure. The ability of these pores to reject dissolved poly(ethylene oxide) molecules of varying molecular weight matches existing theories for transport through small pores.

Original language	English (US)
Pages (from-to)	847-853
Number of pages	7
Journal	ACS Applied Materials and Interfaces
Volume	2
Issue number	3
DOIs	https://doi.org/10.1021/am900882t
State	Published - Mar 24 2010

Keywords

Block copolymer
Filtration
Nanoporous membrane
Perpendicular orientation
Poly(styrene-b-lactide)

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AU - Phillip, William A.

AU - O'neill, Brandon

AU - Rodwogin, Marc

AU - Hillmyer, Marc A.

AU - Cussler, E. L.

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AB - Nanoporous membranes containing monodisperse pores of 24 nm diameter are fabricated using poly(styrene-b-lactide) block copolymers to template the pore structure. A 4 μm thin film of the block copolymer is cast onto a microporous membrane that provides mechanical reinforcement; by casting the copolymer film from the appropriate solvents and controlling the solvent evaporation rate, greater than 100 cm2 of a thin film with polylactide cylinders oriented perpendicular to the thin dimension is produced. Exposing the composite membrane to a dilute aqueous base selectively etches the polylactide block, producing the porous structure. The ability of these pores to reject dissolved poly(ethylene oxide) molecules of varying molecular weight matches existing theories for transport through small pores.

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KW - Nanoporous membrane

KW - Perpendicular orientation

KW - Poly(styrene-b-lactide)

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Self-assembled block copolymer thin films as water filtration membranes

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