1. The Influence of Shape on Parallel Self-Assembly.
- Author
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Miyashita, Shuhei, Nagy, Zoltán, Nelson, Bradley J., and Pfeifer, Rolf
- Subjects
MOLECULAR self-assembly ,MORPHOGENESIS ,VIRUSES ,MORPHOLOGY ,HYDROGEN bonding ,ENERGY dissipation ,SELF-organizing systems - Abstract
Self-assembly is a key phenomenon whereby vast numbers of individual components passively interact and form organized structures, as can be seen, for example, in the morphogenesis of a virus. Generally speaking, the process can be viewed as a spatial placement of attractive and repulsive components. In this paper, we report on an investigation of how morphology, i.e., the shape of components, affects a self-assembly process. The experiments were conducted with 3 differently shaped floating tiles equipped with magnets in an agitated water tank. We propose a novel measure involving clustering coefficients, which qualifies the degree of parallelism of the assembly process. The results showed that the assembly processes were affected by the aggregation sequence in their early stages, where shape induces different behaviors and thus results in variations in aggregation speeds. [ABSTRACT FROM AUTHOR]
- Published
- 2009
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