Rational design of ABC triblock terpolymer solution nanostructures with controlled patch morphology
Block copolymers self-assemble into a variety of nanostructures that are relevant for science and technology. While the assembly of diblock copolymers is largely understood, predicting the solution assembly of triblock terpolymers remains challenging due to complex interplay of block/block and block...
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Veröffentlicht in: | Nature communications 2016-06, Vol.7 (1), p.12097-10, Article 12097 |
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Zusammenfassung: | Block copolymers self-assemble into a variety of nanostructures that are relevant for science and technology. While the assembly of diblock copolymers is largely understood, predicting the solution assembly of triblock terpolymers remains challenging due to complex interplay of block/block and block/solvent interactions. Here we provide guidelines for the self-assembly of linear ABC triblock terpolymers into a large variety of multicompartment nanostructures with C corona and A/B cores. The ratio of block lengths
N
C
/
N
A
thereby controls micelle geometry to spheres, cylinders, bilayer sheets and vesicles. The insoluble blocks then microphase separate to core A and surface patch B, where
N
B
controls the patch morphology to spherical, cylindrical, bicontinuous and lamellar. The independent control over both parameters allows constructing combinatorial libraries of unprecedented solution nanostructures, including spheres-on-cylinders/sheets/vesicles, cylinders-on-sheets/vesicles, and sheets/vesicles with bicontinuous or lamellar membrane morphology (patchy polymersomes). The derived parameters provide a logical toolbox towards complex self-assemblies for soft matter nanotechnologies.
Self-assembly of diblock copolymers into useful nanostructures is well understood, unlike the solution self-assembly of triblock copolymers. Here, Müller and co-workers provide guidelines for the self-assembly of linear ABC triblock terpolymers into different multicompartment nanostructures. |
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ISSN: | 2041-1723 2041-1723 |
DOI: | 10.1038/ncomms12097 |