An estimate of the entropy change in the attachment of a Cl atom to be
nzene together with the reported equilibrium constant led to a DELTAH-
degrees for the reaction and a DELTA(f)H-degrees (Ph-H:Cl) which coinc
ides with that estimated for the chlorocyclohexadienyl radical. Kineti
c considerations rule out the latter as a direct participant in chlori
nation. Instead its role appears to be that of a carrier for reversibl
y bound Cl atoms. It is in rapid cage equilibrium with the much more w
eakly bound pi-complex which probably has never been seen spectroscopi
cally but which still remains the most probable agent responsible for
the increased selectivity of chlorination. Pyridine which has been obs
erved32 to be some 4-fold more selective than benzene in chlorination
is shown to form a stronger complex (by 2.6 kcal/mol). However, this >
N-Cl bonded complex is also not the selective chlorinating agent but r
ather again the more loosely bound pi-complex in equilibrium with it.
Effective cage concentrations of substrate RH and benzene around nasce
nt and free Cl atoms are different as well as being different from bul
k solution concentrations. An outline is given of an empirical method
to estimate the thermochemistry of Cl and HCl and other gases in vario
us solvents as a function of concentration.