Interactions between polymer brush-coated spherical nanoparticles: The good solvent case.

Autor: Verso, Federica Lo, Yelash, Leonid, Egorov, Sergei A., Binder, Kurt
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Zdroj: Journal of Chemical Physics; 12/7/2011, Vol. 135 Issue 21, p214902, 10p
Abstrakt: The interaction between two spherical polymer brushes is studied by molecular dynamics simulation varying both the radius of the spherical particles and their distance, as well as the grafting density and the chain length of the end-grafted flexible polymer chains. A coarse-grained bead-spring model is used to describe the macromolecules, and purely repulsive monomer-monomer interactions are taken throughout, restricting the study to the good solvent limit. Both the potential of mean force between the particles as a function of their distance is computed, for various choices of the parameters mentioned above, and the structural characteristics are discussed (density profiles, average end-to-end distance of the grafted chains, etc.). When the nanoparticles approach very closely, some chains need to be squeezed out into the tangent plane in between the particles, causing a very steep rise of the repulsive interaction energy between the particles. We consider as a complementary method the density functional theory approach. We find that the quantitative accuracy of the density functional theory is limited to large nanoparticle separation and short chain length. A brief comparison to Flory theory and related work on other models also is presented. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index