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Just like atoms combine into molecules, colloids can self-organize into predetermined structures according to a set of design principles. Controlling valence—the number of interparticle bonds—is a prerequisite for the assembly of complex architectures. The assembly can be directed via solid “patchy” particles with prescribed geometries to make, for example, a colloidal diamond. We demonstrate here that the nanoscale ordering of individual molecular linkers can combine to program the structure of microscale assemblies. Specifically, we experimentally show that covering initially isotropic microdroplets withNmobile DNA linkers results in spontaneous and reversible self-organization of the DNA intoZ(N) binding patches, selecting a predictable valence. We understand this valence thermodynamically, deriving a free energy functional for droplet–droplet adhesion that accurately predicts the equilibrium size of and molecular organization within patches, as well as the observed valence transitions withN. Thus, microscopic self-organization can be programmed by choosing the molecular properties and concentration of binders. These results are widely applicable to the assembly of any particle with mobile linkers, such as functionalized liposomes or protein interactions in cell–cell adhesion.more » « less
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Izzet, Adrien; Moerman, Pepijn G.; Gross, Preston; Groenewold, Jan; Hollingsworth, Andrew D.; Bibette, Jérôme; Brujic, Jasna (, Physical Review X)
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Shillingford, Cicely; Grebe, Veronica; McMullen, Angus; Brujic, Jasna; Weck, Marcus (, Langmuir)
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McMullen, Angus; Holmes-Cerfon, Miranda; Sciortino, Francesco; Grosberg, Alexander Y.; Brujic, Jasna (, Physical Review Letters)
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Moerman, Pepijn G.; Hohenberg, Pierre C.; Vanden-Eijnden, Eric; Brujic, Jasna (, Proceedings of the National Academy of Sciences)
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