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Assembly of nanorods into designer superstructures: the role of templating, capillary forces, adhesion, and polymer hydration.

ACS nano (2010-01-01)
Jacob W Ciszek, Ling Huang, Stefan Tsonchev, Yuhuang Wang, Kenneth R Shull, Mark A Ratner, George C Schatz, Chad A Mirkin
RESUMEN

The assembly mechanism by which hundreds of thousands of two-segment gold-polypyrrole nanorods are assembled into kinetically controlled shape-directed superstructures is examined to predict the range of nanoparticle sizes and materials that can be utilized in their formation. Four processes are responsible for assembly: templating, capillary force assembly, adhesion, and polymer hydration. It is shown that templating, where rods are prepositioned for assembly, is scale invariant and that the energy-minimized state after this step is highly disordered. In addition, we predict that superstructures can be made independently from patterns of rods separated by a distance as small as six times the inter-rod spacing. Both modeling and experiment show that adhesion and polymer dehydration, which induces curvature in the superstructures, are applicable to other materials. However, the high surface energy and low elastic modulus of polypyrrole are advantageous toward generating three-dimensional structures, inducing curvature at gold/polypyrrole length ratios as large as 7:1.

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Gold nano-urchins, 50 nm avg. part. size, in 0.1 mM PBS