An estimation of the molecular geometry of the transition state of a chemical reaction

Past investigations have correlated XPS valence band broadening with the increase in size of clusters of supported atoms on inert substrates. The theoretical effects of geometrical variation for a given cluster size has not been reported. In this report we show that the broadening effect can be due

Using a large. balanced one-electron basis set. fully optimized reaclion space (FOFG) calculations LO optimize the orbitals and to estimate the inkrnal correlalion energy. multi-reference configuration interaclion calculations including all single and double excitations out of the FORS rere.rence sp

We present a simple example of temporal control of the evolving dynamics in a reactive system -a unimolecular reaction with two channels. Using three femtosecond pulses, a wave packet is prepared, probed, and intercepted in the transition-state region. The femtosecond control pulse intercepts the p

## Abstract A procedure is suggested to estimate the positions of a transition state (TS) along the reaction coordinate in reaction series involving several radical reactions. It is based on the dependence between experimental activation energies __U__^±^ and heat effects __Q__. Taking into account