Dynamics of the dual fluorescences of p-dimethylaminobenzonitrile

Fluorescence quenching v,ith O2 under high pressure ~2s used for the study of reaction kinetics in the 10 picosecond region. Quenching of the dual fluorescence of 2-methyl4dimethylaminohenzonitrile (II) in acetonirrile was analysed. The process B\* 4 A\* occurs with a n lifetime of 11 ps, rvhile the

To characterize the intramolecular charge-transfer process of DMABN, pica-and nanosecond measurements in different polar solutions and at various temperatures were undertaken. Evidence of (i) timedependent interconversion ntesdescribithe formation of the charg%ransfer state and (ii) fluorescence sol

Xb initio and CNDO!s calcul~tions support a mechanism ~hich in! oives d geotnetricxl relaation (I e , thc tu ist of thc bond betlieen the ring and NRz o\_roup) for the appearancc of thc long \\a\elength tluorescence (F,) obserted m somc psubstitutrd dimethylanilines. For the twïsted peomerries of th

A self-consistent reaction field (SCRF) method is used to calculate the absorption and emission spectra ofp-N,N-dimethylaminobenzonitrile (DMABN) and 6-cyanobenzquinuclidine (CBQ) in different solvents. The dual fluorescence of DMABN is discussed in terms of internal twisting of the excited state as

The observation of the dual luminescence of the title compound in very concentrated solutions in specially dried acetonitrile rules out water impurities as being at the origin of the anomalous emission. Water produces a quenching of the anomalous emission as well as a red-shift of the emission spect