Wave functions obtained at Becke3LYP, Becke3PW91, MP2, and QCISD levels of
theory for the 2-norbornyl cation (1) are used in a topological analysis of
the Becke-Edgecombe electron localization function (ELF) with the Silvi su
ite of programs. Partitioning of the molecular space of the cation into bas
ins of attractors yields information on the shared valence basin interactio
ns at the C1-C2-C6 face of 1 and other C-s species in which the C1-C6 and C
2-C6 distances are increased incrementally to 193.5 pm. At the Becke3LYP/ c
c-PVTZ//Becke3LYP/cc-PVTZ level, a single trisynaptic basin with a populati
on of 0.83 electrons connects C1 and C2 to C6 in the optimized geometry whe
re the C1/C2-C6 distances are 188.9 pm. When the C1/ C2-C6 distances are in
creased by 4.5 pm to 193.5 pm, the shared trisynaptic basin splits into a m
onosynaptic basin at C6 with a population of 0.49 electrons and a disynapti
c basin between CI and C2 with a population of 2.75 electrons; and DeltaE(T
) is only 0.12 kcal mol(-1). Disynaptic basins with electron populations in
the region of 0.5 electrons link C1-C6 and C2-C6 in the equilibrium optimi
zed geometries of 1 obtained at the MP2, Becke3PW91, and QCISD levels (the
C1/C2-C6 distances range from 182.5. to 184.6 pm). This is the case even wh
en the large correlation-consistent basis set cc-PVTZ is used to obtain the
wave functions. But these shared interactions are lost when the C1/C2-C6 d
istances are increased in the range of 8 pm. While the nature of the basins
at the C1-C2-C6 face depends on the C1/C2-C6 distances and the basis set,
on the whole, increases in energy only ranging up to 0.55 kcal mol(-1) are
found with large basis sets when the distances are increased by 4-8 pm. At
the point where the shared valence interactions between C1/C2 and C6 are lo
st, there is no discontinuity in the calculated total energy. According to
our ELF analysis the formation of 1 from the C-s primary "open" cation invo
lves a transfer of electrons from the valence basin of the double bond at C
1-C2 to a basin at C6 The stabilization of 1 relative to the open primary c
ation results from an electrostatic interaction between a carbocation and t
he electrons of a carbon-carbon double bond.