%0 Journal Article
%A Hrovat, David A.
%A Duncan, James A.
%A Borden, Weston Thatcher
%D 1998
%T Ab Initio and DFT Calculations on the Cope Rearrangement of
1,2,6-Heptatriene
%U https://acs.figshare.com/articles/journal_contribution/Ab_Initio_and_DFT_Calculations_on_the_Cope_Rearrangement_of_1_2_6-Heptatriene/3672555
%R 10.1021/ja983032j.s001
%2 https://ndownloader.figshare.com/files/5762316
%K CASPT
%K energy decreases monotonically
%K B 3LYP calculations
%K Cope rearrangement
%K pathway
%K transition states
%K DFT
%K allylic delocalization
%K bond
%K CASSCF
%X (8/8)CASSCF, CASPT2, and B3LYP calculations have been performed on the potential surface for
the Cope rearrangement of 1,2,6-heptatriene (1) to 3-methylene-1,5-hexadiene (3). Although an allylic diradical
intermediate (2) has been located, the transition states connecting it to 1 and 3 show little allylic delocalization.
The first of these transition states is higher in energy than the second; and, when the geometries of intermediate
points are constrained so as to prevent allylic delocalization, a pathway from the former to the latter has been
found along which the energy decreases monotonically. The existence of a second pathway from 1 to 3, which
bypasses 2, is consistent with the experimental results of Roth and co-workers, who found that roughly half
of this rearrangement proceeds without formation of a trappable intermediate. In the absence of appreciable
allylic delocalization in the rate-determining transition state, the relative strengths of the π bonds broken and
the σ bond formed in this transition state explain why ΔH⧧ for Cope rearrangement is lower for 1 than for
1,5-hexadiene and more highly unsaturated derivatives.
%I ACS Publications