W. Kuehnle scite author profile

The intramolecular charge transfer (ICT) reaction from the locally excited state (LE) to the charge transfer state (CT) in the singlet excited state is investigated for the dual fluorescent 4-(dialkylamino)benzonitriles DRABN and 4-dialkylamino-2,6-dimethyl-benzonitriles RDB (R = methyl, ethyl, n-propyl) in toluene as a function of temperature by photostationary and time-resolved experiments. The efficiency of the ICT reaction, as expressed by the CT/LE fluorescence quantum yield ratio Φ‘(CT)/Φ(LE), is enhanced by the increase in the size of the dialkylamino group as well as by the presence of the two extra methyls in the phenyl ring. This increase is mainly brought about by slowing down the thermal back reaction (k d) due to a larger activation energy E d or a smaller preexponential factor k d o, respectively. The free enthalpy change ΔG becomes more negative (∼6 kJ/mol) for 4-(diethylamino)benzonitrile (DEABN) and 4-(di(n-propyl)amino)benzonitrile (DPrABN) as compared with 4-(dimethylamino)benzonitrile (DMABN) and also for the 4-dialkylamino-2,6-dimethylbenzonitriles EDB (ethyl) and PrDB (n-propyl) relative to MDB (methyl). The ΔG is about 2 kJ/mol more negative for RDB than for DRABN. In both series DRABN and RDB, the ICT stabilization enthalpy, −ΔH, increases from R = methyl to n-propyl. The increase in the ICT rate constant k a for the pairs DEABN/DMABN and EDB/MDB is primarily caused by a larger preexponential factor k a o counteracted but not reversed by a likewise larger activation energy E a. For the dependence of the energy E(CT) of the CT state on the difference between the redox potentials of the dialkylamino and benzonitrile moieties in DRABN and RDB a substantially smaller correlation coefficient (0.29) is found than the value of 1.0 expected for the TICT model, showing that the amino and benzonitrile groups in the CT state are not electronically decoupled. The energy δE rep of the Franck−Condon ground state reached upon CT emission decreases with increasing size of the dialkylamino group in DRABN and RDB.

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Intramolecular charge transfer and thermal exciplex dissociation with p-aminobenzonitriles in toluene

Leinhos¹,

Kuehnle²,

Zachariasse³

1991

J. Phys. Chem.

216

280

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Excited‐state intramolecular charge transfer in donor/acceptor‐substituted aromatic hydrocarbons and in biaryls. The significance of the redox potentials of the D/A subsystems

Haar

Hebecker

Il'ichev

et al. 1995

Recl. Trav. Chim. Pays‐Bas

144

140

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Abstract. The energy of the charge transfer (CT) emission maximum of a series of dual fluorescent 4-aminobenzonitriles in diethyl ether and acetonitrile does not show a correlation with the redox potentials of the amino (D) and benzonitrile (A) subgroups. It is therefore concluded that these electron donor and acceptor subgroups cannot be treated in the same way as the A and D molecules in exciplexes '(A-D'). This means that in the intramolecular charge transfer (ICT) state of the aminobenzonitriles, a considerable electronic coupling between the A -and D + parts exists, in contradiction with the twisted intramolecular charge transfer (TICT) hypothesis. For 9,9'-bianthryl, lO-cyan0-9,9'-bianthryl and 10,10'-dicyano-9,9'-bianthryl, photostationary and timeresolved measurements are presented, which show that the influence of the cyano substituents on the ICT reaction in the excited state can be understood by considering the redox potentials of the anthryl groups. The introduction of an additional cyano group in an aminobenzonitrile, however, leads to the disappearance of ICT and dual fluorescence, indicating that the photophysics of these molecules cannot be understood on the basis of the redox potentials of the D and A constituents.

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W. Kuehnle

Excited-state dipole moments of dual fluorescent 4-(dialkylamino)benzonitriles: influence of alkyl chain length and effective solvent polarity

Intramolecular Charge Transfer in Dual Fluorescent 4-(Dialkylamino)benzonitriles. Reaction Efficiency Enhancement by Increasing the Size of the Amino and Benzonitrile Subunits by Alkyl Substituents

Intramolecular charge transfer and thermal exciplex dissociation with p-aminobenzonitriles in toluene

Excited‐state intramolecular charge transfer in donor/acceptor‐substituted aromatic hydrocarbons and in biaryls. The significance of the redox potentials of the D/A subsystems

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