Reactivity of the 4,5-Didehydroisoquinolinium Cation

The chemical properties of a 1,8‐didehydronaphthalene derivative, the 4,5‐didehydroisoquinolinium cation, were examined in the gas phase in a dual‐cell Fourier‐transform ion cyclotron resonance (FT‐ICR) mass spectrometer. This is an interesting biradical because it has two radical sites in close proximity, yet their coupling is very weak. In fact, the biradical is calculated to have approximately degenerate singlet and triplet states. This biradical was found to exclusively undergo radical reactions, as opposed to other related biradicals with nearby radical sites. The first bond formation occurs at the radical site in the 4‐position, followed by that in the 5‐position. The proximity of the radical sites leads to reactions that have not been observed for related mono‐ or biradicals. Interestingly, some ortho‐benzynes have been found to yield similar products. Since ortho‐benzynes do not react via radical mechanisms, these products must be especially favorable thermodynamically. The 4,5‐didehydroquinolinium cation (1) represents a rare case in which the coupling between the biradical electrons is very weak although the radical sites are in close proximity. These characteristics give this biradical interesting chemical properties. The 4,5‐didehydroquinolinium cation was found to exclusively undergo radical reactions, unlike related biradicals with adjacent radical sites.