Excited-State Dynamics of Donor-Acceptor Bridged Systems Containing a Boron-Dipyrromethene Chromophore: Interplay between Charge Separation and Reorientational Motion

Titration experiment with a number of [N(Bu).]X. The cquilibriwn constants were valuated using singular value decomposition_ or global analysis. The analysis suggests

The characterization of PHJ solar cells with C 60 as acceptor layer shows that replacement of DCV groups by TB leads to a decrease of conversion effi ciency due possibly to

5 We present picosecond pump-probe experiment performed on catechol to see if the number of vibrational quanta observed in the internal distribution of the H-loss product

A computational study combining quantum chemical calculations and classical molecular dynamics simulations was able to reproduce the experimental electronic absorption lineshape

It is shown that, in the area of applicability of the perturbation theory, the variation of the pulse carrier frequency inside the absorption band can significantly change the

used in lighting and displays by simultaneously utilizing the fluorescence of the neutral and protonated species.23,50-57 It has been reported that energy transfer from the

electronic couplings between donor and acceptor will determine the amount of charge instantly transferred between the two sides of the molecule in the Franck-Condon state, whereas it

Boron-dipyrromethene dyes (Figure 1) belong to a modern class of fluorophores showing attractive properties: tunable photoluminescence in the 500-650 nm spectral range,