Exploiting non-equilibrium phase separation for self-assembly | Zendy

Michael Grünwald | Zendy; Simon Tricard | Zendy; George M. Whitesides | Zendy; Phillip L. Geissler | Zendy

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Exploiting non-equilibrium phase separation for self-assembly

Author(s) -

Michael Grünwald,

Simon Tricard,

George M. Whitesides,

Phillip L. Geissler

Publication year - 2015

Publication title -

soft matter

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.99

H-Index - 170

eISSN - 1744-6848

pISSN - 1744-683X

DOI - 10.1039/c5sm01922b

Subject(s) - particle (ecology) , range (aeronautics) , chemical physics , amplitude , electric field , string (physics) , phase (matter) , colloidal particle , physics , field (mathematics) , colloid , classical mechanics , materials science , chemistry , optics , theoretical physics , quantum mechanics , ecology , mathematics , pure mathematics , composite material , biology

Demixing can occur in systems of two or more particle species that experience different driving forces, e.g., mixtures of self-propelled active particles or of oppositely charged colloids subject to an electric field. Here we show with macroscopic experiments and computer simulations that the forces underlying such non-equilibrium segregation can be used to control the self-assembly of particles that lack attractive interactions. We demonstrate that, depending on the direction, amplitude and frequency of a periodic external force acting on one particle species, the structures formed by a second, undriven species can range from compact clusters to elongated, string-like patterns.

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