Molecular structure effects in intramolecular electronic energy transfer

4 quantum mechanical study of collision induced electronic-to-rotational energy transfer !n the fluorine-para-hydrogen system (F + Ha) is reported. The three potential energy surfaces of the system, constrained to lie in a fmed plane, are obtained by the diatomics-in-molecules approach, and close-co

Keceivcd 23 August 19S3 X theory is presented for intranlolecular electronic encgy transfer in bichromophoric molecules. Expressions are given for the donor moiety fluorescence (phosphorescence) decay and for Its fluorescence (phosphorescence) quantum yield in rerms of rhc areragc di&mce between the

## Abstract The molecular box **1** comprises of two zinc‐porphyrin metallacycles connected by two free‐base 4′‐__trans__‐dipyridylporphyrins, axially coordinated to the zinc centers. The photophysics of **1** were studied in chloroform by emission and ultrafast absorption spectroscopy. In the mole

The effects of molecular size, conjugation length, and competition with excimer formation on excited state intramolecular proton transfer (ESIPT) in conjugated polymers, in which the intramolecularly hydrogen-bonded moieties reside in the main chain, were examined. A large extent of T-electron deloc