Publications in Scientific Journals:
D. Toneian, C. N. Likos, G. Kahl:
"Controlled self-aggregation of polymer-based nanoparticles employing shear flow and magnetic fields";
Journal of Physics: Condensed Matter,
31
(2019),
24LT02.
English abstract:
Star polymers with magnetically functionalized end groups are presented as a novel polymeric system whose morphology, self-aggregation, and orientation can easily be tuned by exposing these macromolecules simultaneously to an external magnetic field and to shear forces. Our investigations are based on a specialized simulation technique which faithfully takes into account the hydrodynamic interactions of the surrounding, Newtonian solvent. We find that the combination of magnetic field (including both strength and direction) and shear rate controls the mean number of magnetic clusters, which in turn is largely responsible for the static and dynamic behavior. While some properties are similar to comparable non-magnetic
star polymers, others exhibit novel phenomena; examples of the latter include the breakup and reorganization of the clusters beyond a critical shear rate, and a strong dependence of the efficiency with which shear rate is translated into whole-body rotations on the direction of the magnetic field.
Keywords:
star polymers, magnetically functionalized polymers, MPCD simulations, external shear forces
"Official" electronic version of the publication (accessed through its Digital Object Identifier - DOI)
http://dx.doi.org/10.1088/1361-648X/ab0f6d
Electronic version of the publication:
https://publik.tuwien.ac.at/files/publik_287815.pdf
Related Projects:
Project Head Gerhard Kahl:
DFS
Created from the Publication Database of the Vienna University of Technology.