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electrocyclizations

Electrocyclizations are pericyclic reactions in which a linear conjugated polyene closes to form a ring by forming a sigma bond between the terminal carbons of the pi system. The process is concerted and proceeds through a cyclic transition state whose symmetry is governed by orbital considerations, as described by Woodward–Hoffmann rules. The number of pi electrons and the mode of activation (thermal or photochemical) determine the stereochemical outcome of the ring closure.

Under thermal conditions, a 4n+2 pi-electron system closes disrotatorily, while a 4n pi-electron system closes conrotatorily.

Common examples include the thermal closure of butadiene (four pi electrons) to cyclobutene, which proceeds conrotatorily,

Electrocyclizations are valuable tools in organic synthesis for constructing cycloalkene frameworks and are frequently employed in

Photochemical
excitation
reverses
these
outcomes:
4n+2
pi
electrons
close
conrotatorily
and
4n
pi
electrons
close
disrotatorily.
The
reaction
is
typically
suprafacial
at
the
termini,
and
the
rotation
sense
dictates
the
relative
stereochemistry
of
substituents
on
the
resulting
ring.
and
the
thermal
closure
of
hexatriene
(six
pi
electrons)
to
cyclohexadiene,
which
proceeds
disrotatorily.
Substituents
at
the
ends
influence
the
product’s
stereochemistry
in
a
way
that
is
predictable
from
the
chosen
mode
of
rotation.
natural
product
synthesis
and
photochemical
studies.
They
form
part
of
the
broader
class
of
pericyclic
reactions
and
illustrate
how
orbital
symmetry
controls
reaction
pathways
and
stereochemical
outcomes.