AI Article Synopsis
- The study investigates the effects of 10- and 14-center circuits on nucleus-independent chemical shifts (NICSs) using multicenter bond indices (MCBIs) for polycyclic aromatic hydrocarbons (PAHs).
- The research reveals that the NICS values for certain fragments like perylene and coronene exhibit nonlocal contributions not previously recognized.
- A new model incorporating MCBI-ring current maps provides insight into how both higher-order circuits and local aromaticity influence the NICS, indicating that even distant currents in the molecule can affect the NICS values.
Article Abstract
In a recent contribution, we examined the effect of 10- and 14-center circuits on the nucleus-independent chemical shifts NICSs using multicenter bond indices (MCBIs) (Fias et al., J Comput Chem 2008, 29, 358). In this study, the nonlocal contributions to the NICS are further investigated for a larger set of polycyclic aromatic hydrocarbons (PAHs). To achieve this, the NICSs are predicted using the MCBI and compared with ab initio results. The NICSs of the central ring of perylene- and benzo-[ghi]perylene-like fragments and of coronene appear to have other nonlocal contributions than the ones previously studied. It is shown that a model based on the MCBI-ring current maps and the inclusion of new circuits proves the existence and shows the nature of these new nonlocal effects on the NICS. This new model leads to a better understanding of the differences between the NICSs and delocalization indices. The results show that the NICS value is not only significantly influenced by the higher order circuits encircling the ring at which it is evaluated but also by the local aromaticity of the surrounding rings, and occasionally, like in the case of coronene, the NICSs are even influenced by currents farther away in the molecule.
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