Ya. Borisov et Bc. Garrett, STRUCTURE AND ISOMERIZATION OF ARENONIUM IONS OF DICHLOROBENZENES IN THE GAS-PHASE - A THEORETICAL-STUDY, Russian chemical bulletin, 47(9), 1998, pp. 1677-1682
Ab initio MP2 calculations of all isomeric arenonium ions (AI) of orth
o-, meta-, and para-dichlorobenzenes in the gas phase were carried out
with full optimization of geometry with the 6-31G basis set. The cal
culated proton affinities depend substantially on the position of gemi
nal center in the corresponding dichlorobenzenonium ion and decrease i
n the series 1,2-dichloro-4H-benzenonium > 1,2-dichloro-3H-benzenonium
> 1,2-dichloro-2H-benzenonium; 1,3-dichloro-4H-benzenonium > 1,3-dich
loro-2H-benzenonillm > I,3-dichloro-5H-benzenonium >1,3-dichloro-3H-be
nzenonium; 1,4-dichloro-2H-benzenonium > 1,4-dichloro-4H-benzenonium.
The structures of transition states and activation energies (E-a) of a
lmost all 1,2-shifts of H and Cl atoms in Al were determined. The acti
vation energies of migrations of H atoms are about 6 kcal mol(-1) less
than those of migrations of Cl atoms in similar structures. The isome
rization routes and relations between the rate constants for isomeriza
tion of dichlorobenzenes through AI were established.