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M. S. ZHUKOVSKIY, S. A. BEZNOSYUK, Ya. V. LERKH, and T. M. ZHUKOVSKAYA
«Self-Assembly and Self-Organization of Nonequilibrium Carbon Nanogels »
445–453 (2010)

PACS numbers: 05.45.Df, 05.65.+b, 61.46.Df, 62.23.St, 64.60.qe, 64.75.Yz, 81.05.Zx

Using computer nanotechnology methods, nonequilibrium processes of the self-assembly and self-organising of carbon nanogel synthesis in nanopores of material are considered. The nanogel quantum complexity is characterised by topological indexes—number of junctions and number of ribs of a connectivity graph. Complexity of the graph is numerically measured by the information, I. In article, correlation between the Shannon information as a measure of the nanogel quantum complexity and its morphology is shown. As shown, in the case of monotonous increase of carbon-nanoparticles concentration in a pore from 0% to 100%, the Shannon information passes through a maximum. Thus, a curve is similar to the off-centre truncated pyramid. The maximum of Shannon information determines a trend of nonequilibrium processes of the self-assembly and self-organising of carbon nanoparticles to formation of cellular–matrix nanogel, in which the probability curve for each nanoparticle to be quantum-complicated has double peak of maximums for cases of 10 or 19 neighbours, respectively.