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W2272607591 abstract "Understanding and controlling vesicle shapes is a fundamental challenge in biophysics and materials design. In this paper, we design dynamic protocols for enlarging the shape space of both fluid and crystalline vesicles beyond the equilibrium zone. By removing water from within the vesicle at different rates, we numerically produced a series of dynamically trapped stable vesicle shapes for both fluid and crystalline vesicles in a highly controllable fashion. In crystalline vesicles that are continuously dehydrated, simulations show the initial appearance of small flat areas over the surface of the vesicles that ultimately merge to form fewer flat faces. In this way, the vesicles transform from a fullerene-like shape into various faceted polyhedrons. We perform analytical elasticity analysis to show that these salient features are attributable to the crystalline nature of the vesicle. The potential to use dynamic protocols, such as those used in this study, to engineer vesicle shape transformations is helpful for exploiting the richness of vesicle geometries for desired applications." @default.
W2272607591 created "2016-06-24" @default.
W2272607591 creator A5066078068 @default.
W2272607591 creator A5068153815 @default.
W2272607591 creator A5079006996 @default.
W2272607591 date "2016-01-26" @default.
W2272607591 modified "2023-09-30" @default.
W2272607591 title "Vesicle Geometries Enabled by Dynamically Trapped States" @default.
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W2272607591 doi "https://doi.org/10.1021/acsnano.5b06991" @default.
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