Surface roughness directed self-assembly of patchy particles into colloidal micelles

Publication date

2012

Authors

Kraft, Daniela J.
Ni, R.ISNI 0000000389497721
Smallenburg, F.ISNI 0000000395977772
Hermes, M.ISNI 0000000394171507
Yoon, K.
Weitz, D.A.
van Blaaderen, AlfonsISNI 0000000388251965
Groenewold, J.ISNI 0000000368859906
Dijkstra, M.ISNI 0000000358257928
Kegel, W.K.ISNI 0000000388841893

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Document Type

Article
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Abstract

Colloidal particles with site-specific directional interactions, so called “patchy particles”, are promising candidates for bottomup assembly routes towards complex structures with rationally designed properties. Here we present an experimental realization of patchy colloidal particles based on material independent depletion interaction and surface roughness. Curved, smooth patches on rough colloids are shown to be exclusively attractive due to their different overlap volumes. We discuss in detail the case of colloids with one patch that serves as a model for molecular surfactants both with respect to their geometry and their interactions. These one-patch particles assemble into clusters that resemble surfactant micelles with the smooth and attractive sides of the colloids located at the interior. We term these clusters “colloidal micelles”. Direct Monte Carlo simulations starting from a homogeneous state give rise to cluster size distributions that are in good agreement with those found in experiments. Important differences with surfactant micelles originate from the colloidal character of our model system and are investigated by simulations and addressed theoretically. Our new “patchy” model system opens up the possibility for self-assembly studies into finite-sized superstructures as well as crystals with as of yet inaccessible structures.

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Citation

Kraft, D J, Ni, R, Smallenburg, F, Hermes, M, Yoon, K, Weitz, D A, van Blaaderen, A, Groenewold, J, Dijkstra, M & Kegel, W K 2012, 'Surface roughness directed self-assembly of patchy particles into colloidal micelles', Proceedings of the National Academy of Sciences of the United States of America, vol. 109, 10787, pp. 10787/1-10787/6. https://doi.org/10.1073/pnas.1116820109/-/DCSupplemental