Journal
FUEL
Volume 279, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.fuel.2020.118491
Keywords
Soot; Polycyclic aromatic hydrocarbons; Radicals; Density functional theory
Categories
Funding
- PRIN project Modeling and Analysis of carbon nanoparticles for innovative applications Generated dIrectly and Collected DUring combuSTion (MAGIC DUST) [2017PJ5XXX]
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Recent advances in the soot studies have shown experimental evidences of pi-radicals and cross-linked structures among the molecular constituents of just-nucleated soot particles. pi-radicals could have an important role in particle nucleation by increasing the binding energy between polycyclic aromatic hydrocarbons with respect to pure van der Waals interactions. In this work we use density functional theory by Grimme D3 dispersion correction (DFT-D3) with hybrid functional and localized Gaussian basis set (B3LYP/6-31G**) to analyze and classify the clustering behaviors of two aromatic radicals visualized experimentally by atomic force microscopy (Commodo et al. Combust. Flame 205: 154-164, 2019). These aromatic radicals have different topological structures and delocalization of the unpaired electron. The binding energy and energy bandgap characteristics of the clusters are calculated. The theoretical results show a different clustering behavior for the two aromatic radicals. The one with a partial localization of the unpaired electron tends to form a sigma-dimer; conversely, the radical with a greater delocalization of the unpaired electron leads to pi-stacking formation with a slight overbinding of few kcal mol(-1) with respect to pure van der Waals interactions and a marked lowering of the energy bandgap. The formation of pi-stacking induced by delocalized pi-radicals could in part explain some spectroscopic evidences observed during soot nucleation.
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