Publication: Self-assembly of magnetically interacting cubes by a turbulent fluid flow
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Date
2011
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American Physical Society (APS)
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Ilievski, Filip, Madhav Mani, George M. Whitesides, and Michael P. Brenner. 2011. “Self-Assembly of Magnetically Interacting Cubes by a Turbulent Fluid Flow.” Phys. Rev. E 83, no. 1: 017301.
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Abstract
Previous work has demonstrated that combining mechanical vibration with magnetic interactions can result in the self-assembly of complex structures, albeit at low yield. Here we introduce a system where the yield of self-assembled structures is quantitatively predicted by a theoretical analysis. Millimeter-sized magnetic blocks, designed to form chains as their minimal energy state, are placed in a turbulent fluid flow. The distribution of chain lengths that form is quantitatively consistent with predictions, showing that the chain length distribution coincides with that of monomers or polymers in a thermal bath, with the turbulence strength parametrizing the effective temperature.
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