A quantum-chemical study of aza derivatives of (E)-1-styrylnaphthalene in the ground and lowest electronically excited states

The structures of (E)-1-styrylnaphthalene (1SN) and its aza derivatives 1-styrylisoquinoline (1SiQ) and 4- and 8-styrylquinolines (4SQ and 8SQ, respectively) in the neutral and protonated forms were calculated by the semiempirical (PM3) and DFT (B3LYP/6-31G*) methods. It follows from the DFT data that, in the ground state (S0), 1SiQ and 8SQ are planar, whereas 1SN, neutral 4SQ, and all protonated azastyrylnaphthalenes are nonplanar with aromatic cores twisted by 5 to 40° out of the plane of the double bond and with linear correlation between the torsion angles of the two cores. The calculated adiabatic excitation energy (E _ad) varies within 61–64 kcal mol^?1 for the neutral compounds and decreases for the protonated forms to 48, 45, and 33 kcal mol^?1 for 1SiQH⁺, 4SQH⁺, and 8SQH⁺, respectively. The lower E _ad value for 8SQH⁺ is in qualitative agreement with a lower photoisomerization quantum yield for this compound as compared with that for other protonated azastyrylnaphthalenes.