Nanopercolation

Abstract

We investigate through direct molecular mechanics calculations the geometrical properties of hydrocarbon mantles subjected to percolation disorder. We show that the structures of mantles generated at the critical percolation point have a fractal dimension df ≈ 2.5. In addition, the solvent access surface As and volume Vs of these molecules follow power-law behavior, As LαA and Vs LαV, where L is the system size, and with both critical exponents αA and αV being significantly dependent on the radius of the accessing probing molecule, rp. Our results from extensive simulations with two distinct microscopic topologies (i.e., square and honeycomb) indicate the consistency of the statistical analysis and confirm the self-similar characteristic of the percolating hydrocarbons. Due to their highly branched topology, some of the potential applications for this new class of disordered molecules include drug delivery, catalysis, and supramolecular structures.

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