Model calculation of the intrinsic barrier for proton transfer in a carbon acid

In the final structure about half the positive charge is located at the iron atom and the other half distributed uniformly over both rings (see table ). For comparison the charge at the iron atom in ferrocene is calculated to be + 0.3. This result compares favourably with Mossbawer experiments 1131.

Picosecond kinetics of excited-state single-or double-proton transfer along intramolecular hydrogen bonds were analyzed for three molecules: 2,5-his-( 2-benzoxazolyl )hydroquinone, its monomethoxy-derivative and 3,6-bis-(bbenzoxazolyl)pyrocatechol. Forward and back proton-transfer rate constants wer

The kinetics of previously reported excited-state intramolecular proton transfer (ESIPT) reactions were investigated using single-photon counting techniques of high temporal resolution: 2,5-bis-( benzoxazolyl)-hydroquinone undergoing single PT emits two fluorescence bands, the primary (450 nm) and t

Electron transfer (ET) is treated as a vibrational quantum mechanical problem in a symmetric Born-Oppenheimer (BO) biparabolic potential of Marcus type, where the distance between the energy minima is given by the reorganization energy λ and force constant k. The interaction is characterized by a ga