Dynamics of charge separation in the excited-state chemistry of protochlorophyllide

## Abstract The excited‐state processes of protochlorophyllide a, the precursor of chlorophyll a in chlorophyll biosynthesis, are studied using picosecond time‐resolved fluorescence spectroscopy. Following excitation into the Soret band, two distinct fluorescence components, with emission maxima at

The process of intramolecular charge separation was studied in three nearly identical donor-bridge-acceptor compounds (1-3) under jet-cooled conditions. Each consists of a vinylcyanonaphthalene group as a powerful electron acceptor and an anilino derivative as an electron donor, separated by a rigid

Three bridged electron donor-acceptor systems are investigated containing a Ccyano-I-ethenylnaphthalene electron-acceptor andpiperidine (compound l), phenylpiperazine (2) and 4-methoxyphenylpiperazine (3) electron-donating groups. In the intramolecular charge-transfer states of 1 and 2, the extent o

Usin excited state absorption decay experiments (ESA), time-resolved fluorescence and stimulated emission measurements, we have further investigated the photophysics of the barrierless isomerization of the molecule l,l'diethyl-4,4'-cyanine. The observed fluorescence lifetimes are strongly wavelength