Mechanism of Exciplex Decay: The Quantum Yields and the Rate Constants of Triplet Formation from 9-Cyanophenanthrene Exciplexes

“…Englman and Jortner [25] derived another expression, developing their version of the theory of radiationless processes in the low-temperature (hν V Ӷ k B T) approximation of weak interaction (λ V ~≤ hν V ): ) and the energy of 0-0 transitions ( ); the spectral factor (S = λ V /hν V ); the energy of the dominant high-frequency modes (hν V ); the energy of internal reorganization of reactants (λ V ); Gaussian broadening in the emission spectra of 9-cyanophenanthrene (CP) exciplexes with 1,2,3-and 1,3,5-trimethoxybenzenes (123TMB and 135TMB) (σ, exciplex lifetimes ( ); the singlet-triplet splitting ∆E ST in exciplexes; the quantum yields of exciplex emission ( ), triplets ( ), radical ions ( ), and internal conversion ( ) from exciplexes; and the rate constants of intersystem crossing ( ) and internal conversion ( ) in exciplexes [22,23] …”

“…In the previous works [22,23], we measured the quantum yields of fluorescence ( ) of exciplexes of 9-cyanophenanthrene (CP) with 1,2,3-and 1,3,5-trimethoxybenzenes (123TMB and 135TMB), the quantum yields of formation from these of triplet states ( ) and of radical ions ( ), and the rate constants of internal conversion and intersystem crossing of these exciplexes in solvents of different polarities. The experimental methods and the procedures of the determination of the quantum yields of formation of triplets, radical ions, and internal conversion were described elsewhere [22,23].…”

“…The experimental methods and the procedures of the determination of the quantum yields of formation of triplets, radical ions, and internal conversion were described elsewhere [22,23]. The data are listed in Table 1.…”

The nature of internal conversion and intersystem crossing in exciplexes

“…Englman and Jortner [25] derived another expression, developing their version of the theory of radiationless processes in the low-temperature (hν V Ӷ k B T) approximation of weak interaction (λ V ~≤ hν V ): ) and the energy of 0-0 transitions ( ); the spectral factor (S = λ V /hν V ); the energy of the dominant high-frequency modes (hν V ); the energy of internal reorganization of reactants (λ V ); Gaussian broadening in the emission spectra of 9-cyanophenanthrene (CP) exciplexes with 1,2,3-and 1,3,5-trimethoxybenzenes (123TMB and 135TMB) (σ, exciplex lifetimes ( ); the singlet-triplet splitting ∆E ST in exciplexes; the quantum yields of exciplex emission ( ), triplets ( ), radical ions ( ), and internal conversion ( ) from exciplexes; and the rate constants of intersystem crossing ( ) and internal conversion ( ) in exciplexes [22,23] …”

“…In the previous works [22,23], we measured the quantum yields of fluorescence ( ) of exciplexes of 9-cyanophenanthrene (CP) with 1,2,3-and 1,3,5-trimethoxybenzenes (123TMB and 135TMB), the quantum yields of formation from these of triplet states ( ) and of radical ions ( ), and the rate constants of internal conversion and intersystem crossing of these exciplexes in solvents of different polarities. The experimental methods and the procedures of the determination of the quantum yields of formation of triplets, radical ions, and internal conversion were described elsewhere [22,23].…”

“…The experimental methods and the procedures of the determination of the quantum yields of formation of triplets, radical ions, and internal conversion were described elsewhere [22,23]. The data are listed in Table 1.…”

The nature of internal conversion and intersystem crossing in exciplexes

“…Temperature Effect on the Competition between the Processes of 9-Cyanophenanthrene Exciplex Decay respectively), for which the rate constants and the decay quantum yields at ambient temperature had been determined earlier [22,23]. We studied experimentally the temperature effect in the range of 230-300 K on the competition between exciplex decay reactions.…”

“…It is well documented that the main pathways of exciplex decay are fluorescence, internal conversion, and intersystem crossing in both nonpolar and polar solvents [17][18][19] and dissociation into radical ions in polar solvents [20][21][22][23]. Determining the thermodynamic and activation parameters for exciplex formation and decay, we assumed [13][14][15] that the exciplex decay could be characterized by the same mean activation entropy and enthalpy over the entire temperature range examined, although their contribution could vary with temperature because of competition between several processes.…”

Temperature effect on the competition between the processes of 9-cyanophenanthrene exciplex decay

The Behavior of Exciplex Decay Processes and Interplay of Radiationless Transition and Preliminary Reorganization Mechanisms of Electron Transfer in Loose and Tight Pairs of Reactants