Polymersomes confined self-assembly: micellisation in 2D
Abstract
Biological systems exploit self-assembly to create complex structures whose arrangements are finely controlled from molecular to mesoscopic level. Herein we report an example of using fully synthetic systems that mimic two levels of self-assembly. We show the formation of vesicles using amphiphilic copolymers whose chemical nature is chosen to control both membrane formation and membrane-confined interactions. We report polymersomes with patterns that emerge by engineering interfacial tension within the polymersome surface. This allows the formation of domains whose topology is tailored by the chemical synthesis paving the avenue to complex supramolecular designs functionally similar to those found in viruses and trafficking vesicles.
Cite
@article{arxiv.1509.02757,
title = {Polymersomes confined self-assembly: micellisation in 2D},
author = {Lorena Ruiz-Perez and Lea Messager and Jens Gaitzsch and Adrian Joseph and Ludovico Sutto and Francesco Luigi Gervasio and Giuseppe Battaglia},
journal= {arXiv preprint arXiv:1509.02757},
year = {2016}
}
Comments
11 pages, 4 Figures plus supporting information