Issue 25, 2018

Controlled self-assembly of stomatosomes by use of single-component fluorinated dendritic amphiphiles

Abstract

A series of novel non-ionic amphiphiles with dendritic oligoglycerol head groups of different generations ([G1]–[G3]) and lipophilic/fluorophilic tail segments, comprising single or double tail alkyl chains, C8F17-perfluoro rod segments as well as flexible spacer groups of different lengths were designed and synthesized. We expected that the differences in the size of the dendritic head groups in combination with perfluorinated segments would have an impact on the supramolecular structures formed in aqueous solution if compared with the hydrogenated analogues. Investigating the self-assembly behavior mainly by cryogenic transmission electron microscopy (cryo-TEM) and cryo-electron tomography (cryo-ET) we found as a new result the formation of perforated bilayer vesicles (stomatosomes) and bicontinuous network structures. Surprisingly, we have observed stomatosome formation by self-assembly of single component fluorinated dendritic amphiphiles. These assembly structures turned out to be extremely robust against harsh conditions, although there are strong indications that they represent non-equilibrium structures, which eventually transform into a bicontinuous cubic network structure of double diamond symmetry. In general, the molecular asymmetry of amphiphiles tuned by chemical design induced the expected trend from spherical micelles through worm-like micelles to perforated bilayers and three-dimensional network structures.

Graphical abstract: Controlled self-assembly of stomatosomes by use of single-component fluorinated dendritic amphiphiles

Supplementary files

Article information

Article type
Paper
Submitted
02 Feb 2018
Accepted
01 Mar 2018
First published
11 Jun 2018
This article is Open Access
Creative Commons BY-NC license

Soft Matter, 2018,14, 5256-5269

Controlled self-assembly of stomatosomes by use of single-component fluorinated dendritic amphiphiles

H. v. Berlepsch, B. N. S. Thota, M. Wyszogrodzka, S. de Carlo, R. Haag and C. Böttcher, Soft Matter, 2018, 14, 5256 DOI: 10.1039/C8SM00243F

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