Intra- intermolecular electron transfer in radical nucleophilic aromatic substitution of dihalo(hetero)arenes - a tool for estimating π-conjugation in aromatic systems.

In this paper, the application of the double radical nucleophilic aromatic substitution (S1) in various dihalogenated, mostly diiodinated, π-conjugated systems as a tool for qualitatively estimating their π-conjugation is described. This approach uses electron delocalisation as a measure of π-conjugation. Electron injection into the π-system is achieved reaction of an intermediate aryl radical, itself generated from a dihalogenated π-system SET-reduction of the C-I bond and subsequent reaction with a thiolate anion. The generated arene radical anion can then further react with the second aryl-halogen moiety within the π-system an intramolecular electron transfer process. The efficiency of this intramolecular electron transfer is related to the π-conjugation of the radical anion. If the π-conjugation within the aromatic unit is weak, the arene radical anion reacts an intermolecular ET with the starting dihalide. The intramolecular ET process delivers a product of a double S1 substitution whereas the intermolecular ET pathway provides a product of a mono- S1 substitution. By simple product analysis of mono- double substitution, π-conjugation can be qualitatively evaluated. This mechanistic tool is applied to various dihalogenated π-conjugated systems and the results are discussed within the context of π-conjugation. The conjugation mode within the π-system and the length of the aromatic system are varied, and the effect of relative positioning of the two halides within small π-systems is also addressed.