Direct time-resolution of the stokes fluorescence shift of a polar molecular in a polar solvent

Time-resolved fluorescence spectra of the DCM dye molecule in methanol and chloroform have been studied using the fluorescence up-conversion technique with femtosecond time resolution. There is only one fluorescent excited state for all times and the dynamic Stokes shift observed is only due to solv

The qucnching of the eIcctronicaIly excited strrtes of organic mo!ecu!es by free radiwls such ;IS nitric oxide and oxygen was kt investigttd in any detail by Bawzn and Net&f [ 11. and Itas since then received incrrxsing attention as attempts have been made to un-Axstand this probicm from both the th

We present theoretical analyses of two different aspects ofthe time dependence of the fluorescence Stokes shift in polar liquids. We show that a small deviation from the Debye form for the dielectric relaxation of the solvent can strongly influence the time evolution of the Stokes shift. Using the D

in so-octane solutions contammg small concentrations of the polar solvents butanol or ethyl acetate, a ground&ate complex between the solute I-methqlmdole and the polar solvent IS formed. Previous workers ascriied the fluorescence mtenslty and spectral shifts of I-methybndole m polar solvents to exc

The effect of intramolecular coupling on the first-order molecular hyperpolarizability in a bis-chromophoric system was theoretically and experimentally investigated. According to finite-field calculations using AM 1 parameters, the effective hyperpolarizability of a bis-chromophore is essentially a