Aromaticity is a central concept in chemistry,
pervading areas from biochemistry to materials science.
Recently, chemists also started to exploit intricate phenomena
such as the interplay of local and global (anti)aromaticity or
aromaticity in non-planar systems and three dimensions. These
phenomena pose new challenges in terms of our fundamental
understanding and the practical visualisation of aromaticity. To
overcome these challenges, a method for the visualisation of
chemical shielding tensors (VIST) is developed here that allows
for a 3D visualisation with quantitative information about the
local variations and anisotropy of the chemical shielding. After
exemplifying the method in different planar hydrocarbons, we
study two non-planar macrocycles to show the unique benefits
of the VIST method for molecules with competing π-conjugated
systems and conclude with a norcorrole dimer showing clear
evidence of through-space aromaticity. We believe that the VIST
method will be a highly valuable addition to the computational
toolbox.
Funding
Multielectron photoredox catalysts based on charge accumulation in conjugated macrocycles EP/V048686/1
Austrian Science Fund (FWF) for funding: J4463 (project number)
This is an Open Access Article. It is published by Wiley under the Creative Commons Attribution 4.0 Unported Licence (CC BY). Full details of this licence are available at: http://creativecommons.org/licenses/by/4.0/