Stokes and anti-Stokes fluorescence of 1,12-benzoperylene in solution

Abstract

Extensive observations of the Stokes and anti‐Stokes fluorescence spectra of 1,12‐benzoperylene in n‐heptane solution from −90 to +90°C are reported and analyzed. Corresponding absorption spectra over the same temperature range are used in the assignment of the vibronic states and transitions. The normal fluorescence spectrum has five bands, corresponding to the S⁰₁→S⁰₀, S¹₀, S²₀, S³₀, S⁴₀ transitions (S^V_E refers to a singlet electronic state S_E in a vibrational level V), which are the origins of symmetric ?₅ vibrational progressions. Three bands beyond the S⁰₁→S⁰₀ transitions are identified as S¹₁, S²₁, S³₁→S⁰₀ hot fluorescence and one band as S⁰₂→S⁰₀ fluorescene, and these are the origins of similar ?₅ progressions. It is proposed that the S⁰₁→S^m₀(m≠0), Sⁿ₁→S⁰₀ (n≠0), and S⁰₁→S⁰₀ transitions are induced by vibronic coupling to allowed S^m₂→S^m₀, S⁰₂→S⁰₀, and S¹₂→S⁰₀ transitions, respectively. The S⁰₂→S⁰₀ fluorescence is partly directly excited and partly thermally excited from S⁰₁. Separation of these two components leads to an evaluation of the S⁰₂ lifetime (21±4 ps) and the S⁰₂→Sⁿ₁ internal conversion rate (4.8±0.8×10¹⁰ s⁻¹).