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Dewetting-induced membrane formation by adhesion of amphiphile-laden interfaces.


ABSTRACT: We introduce an approach for forming bilayer polymer membranes by adhesion of amphiphile-laden interfaces. This adhesion is induced by a reduction of solvent quality for the amphiphilic diblock copolymers through selective evaporation of good solvent in the solvent mixture. By combining this membrane formation mechanism with a double-emulsion-templated approach for vesicle formation, we fabricate monodisperse polymersomes that exhibit excellent membrane uniformity, and structural stability, using a method that has high encapsulation efficiency. Moreover, we also show that the technique is versatile and can be applied to different block copolymers. The ability to direct the assembly of amphiphiles into a membrane creates new opportunities to engineer the structures of vesicles on the level of the individual bilayer leaflets.

SUBMITTER: Shum HC 

PROVIDER: S-EPMC3414216 | biostudies-literature | 2011 Mar

REPOSITORIES: biostudies-literature

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Dewetting-induced membrane formation by adhesion of amphiphile-laden interfaces.

Shum Ho Cheung HC   Santanach-Carreras Enric E   Kim Jin-Woong JW   Ehrlicher Allen A   Bibette Jerome J   Weitz David A DA  

Journal of the American Chemical Society 20110307 12


We introduce an approach for forming bilayer polymer membranes by adhesion of amphiphile-laden interfaces. This adhesion is induced by a reduction of solvent quality for the amphiphilic diblock copolymers through selective evaporation of good solvent in the solvent mixture. By combining this membrane formation mechanism with a double-emulsion-templated approach for vesicle formation, we fabricate monodisperse polymersomes that exhibit excellent membrane uniformity, and structural stability, usin  ...[more]

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2018-12-07 | GSE123413 | GEO