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W2793848713 abstract "By means of classical density functional theory and its dynamical extension, we consider a colloidal fluid with spherically-symmetric competing interactions, which are well known to exhibit a rich bulk phase behavior. This includes complex three-dimensional periodically ordered cluster phases such as lamellae, two-dimensional hexagonally packed cylinders, gyroid structures or spherical micelles. While the bulk phase behavior has been studied extensively in earlier work, in this paper we focus on such structures confined between planar repulsive walls under shear flow. For sufficiently high shear rates, we observe that microphase separation can become fully suppressed. For lower shear rates, however, we find that e.g. the gyroid structure undergoes a kinetic phase transition to a hexagonally packed cylindrical phase, which is found experimentally and theoretically in amphiphilic block copolymer systems. As such, besides the known similarities between the latter and colloidal systems regarding the equilibrium phase behavior, our work reveals further intriguing non-equilibrium relations between copolymer melts and colloidal fluids with competing interactions." @default.
W2793848713 created "2018-03-29" @default.
W2793848713 creator A5000842103 @default.
W2793848713 creator A5048790967 @default.
W2793848713 date "2018-06-07" @default.
W2793848713 modified "2023-09-30" @default.
W2793848713 title "Nonequilibrium phase transitions of sheared colloidal microphases: Results from dynamical density functional theory" @default.
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W2793848713 doi "https://doi.org/10.1103/physreve.97.062602" @default.
W2793848713 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30011532" @default.
W2793848713 hasPublicationYear "2018" @default.
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