posted on 2018-12-20, 00:00authored byPavel Pokhilko, Robin Shannon, David Glowacki, Hai Wang, Anna I. Krylov
The electronic structure
of four prototypical Cvetanović
diradicals, species derived by addition of O(3P) to unsaturated
compounds, is investigated by high-level electronic structure calculations
and kinetics modeling. The main focus of this study is on the electronic
factors controlling the rate of intersystem crossing (ISC): minimal
energy crossing points (MECPs) and spin–orbit couplings (SOCs).
The calculations illuminate significant differences in the electronic
structure of ethene- and ethyne-derived compounds and explain the
effect of methylation. The computed MECP heights and SOCs reveal different
mechanisms of ISC in ethene- and ethyne-derived species, thus explaining
variations in the observed branching ratios between singlet and triplet
products and a puzzling effect of methyl substitution. In the ethene-
and propene-derived species, the MECP is very low and the rate is
controlled by variations of SOC, whereas in the ethyne- and propyne-derived
species the MECP is high and the changes in the ISC rate due to methyl
substitutions are driven by the variations of MECP heights.