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Document Description
Title
Investigating
endo-exo
selectivity
in
Diels-Alder
reactions
Author
Gosse
Welshman
,
Tammy
Lynn
,
1975-
Description
Thesis
(Ph.D.)--Memorial
University
of
Newfoundland
,
2010.
Chemistry
Date
2010.
Pagination
1 v. (various foliations) : ill.
Subject
Diels-Alder
reaction
--
Ring
formation
(Chemistry)
Degree
Ph.D.
Degree Grantor
Memorial University of Newfoundland. Dept. of Chemistry
Discipline
Chemistry
Language
Eng
Notes
Includes
bibliographical
references.
Abstract
An
important
goal
for
synthetic
organic
chemists
is
the
synthesis
of the
desired
isomer
of a
target
chemical
compound
exclusively
and in
high
yield.
The
value
and
beauty
of the
Diels-Alder
cycloaddition
lies
in its
capacity
for
selectivity;
that
is
, the
isolation
of a
single
stereoisomer
in
good
yield
is
possible
in
many
cases.
A
chemist's
knowledge
of the
typical
stereochemical
outcomes
of a
variety
of
Diels-Alder
reactions
may
be
used
to
predict
the
product
distribution
for their
system
of
interest.
There are
three
types
of
selectivity
generally
observed
in these
cycloadditions;
the
reasons
for the
selectivity
we
see
are not
always
clear.
Endo-exo
selectivity
is
the
main
focus
of this
thesis.
--
In
Chapter
2
, the
Diels-Alder
reaction
of
3
,
3-disubstituted
cyclopropene
with
butadiene
was
determined
to be
exo
selective
for
all
of the
substituents
examined
, as was
predicted
from a
previous
study
of a
3-substituted
cyclopropene
/
butadiene
system.
The
addition
of a
second
substituent
at the
C3-position
resulted
in a
greater
stabilization
of the
cyclopropene
ring
when
compared
to the
3-substituted
cyclopropenes;
this
result
can
be
attributed
to the
anomeric
effect.
The
activation
barriers
for the
3
,
3-disubstituted
cyclopropene
/
butadiene
system
were
below
those of the
syn
3-substituted
system
(for
both
endo
and
exo
addition)
,
mostly
due
to the
substantial
relief
of
ring
strain
in the
3
,
3-disubstituted
cyclopropene
/
butadiene
transition
state
structures.
--
Long-range
and
short-range
substituent
effects
on the
reactivity
of
cyclopentene
dienophiles
were
considered
in
Chapter
3.
Disubstitution
at
C4
(a
long-range
effect)
had
essentially
no
impact
on the
stabilization
of the
cyclopentene
dienophiles
,
while
disubstitution
at
C1
and
C2
(the
reaction
center)
resulted
in
significant
changes
in the
lengths
of the
C1=C2
bonds.
The
Diels-Alder
reactions
of the
various
4
,
4-
and
1
,
2-disubstituted
dienophiles
with
both
butadiene
and
cyclopentadiene
were
examined
and the
most
significant
selectivities
were
observed
for the
4
,
4-disubstituted
cyclopentene
/
butadiene
system
(exoselective)
and the
1
,
2-disubstituted
cyclopentene
/
cyclopentadiene
system
(endo
selective).
Secondary
orbital
interactions
are not
possible
in the
transition
state
structures
of these
cyclopentene
Diels-Alder
systems
and
thus
cannot
play
a
role
in
determining
endo-exoselectivity.
The
observed
selectivities
can
be
rationalized
qualitatively
by
examining
the
favourable
and
unfavourable
interactions
between
the
diene
and
dienophile
in the
transition
state
structures.
--
The
investigation
of the
Diels-Alder
reactions
involving
cyclopentadiene
and its
substituted
analogs
in
Chapter
4
involved
two
main
objectives:
the
examination
of the
endo-exo
and
facial
selectivities
for a
large
number
of
diene
/
dienophile
combinations
, as
well
as the
in-depth
analysis
of the
potential
energy
curve
of the
endo
dimerization
of
cyclopentadiene.
Endo
addition
was
preferred
for
all
of these
cycloadditions
,
which
is
the
most
commonly
observed
preference.
However
, a
characterization
of the
reaction
coordinate
revealed
an
occurrence
considered
to be
rather
atypical
for
Diels-Alder
reactions:
the
existence
of the
bispericyclic
transition
state
,
first
discussed
in a
2001
communication
by
Caramella
et
al.
This
transition
state
leads
to a
lower
energy
Cope
transition
state
later
on the
reaction
coordinate.
Vibrational
frequency
data
along
the
curve
were
examined
and
product
distribution
was
discussed.
In the
case
of the
Diels-Alder
reactions
of
cyclopentadiene
and its
derivatives
, the
wealth
of
p-orbitals
available
for
favourable
secondary
orbital
interactions
are
likely
the
major
contributing
factor
in the
determination
of the
endo
selectivity
observed.
Type
Text
Resource Type
Electronic
thesis
or
dissertation
Format
Image/jpeg;
Application/pdf
Source
Paper copy kept in the Centre for Newfoundland Studies, Memorial University Libraries
Local Identifier
a3312691
Rights
The author retains copyright ownership and moral rights in this thesis. Neither the thesis nor substantial extracts from it may be printed or otherwise reproduced without the author's permission.
Collection
Electronic
Theses
and
Dissertations
Scanning Status
Completed
PDF File
(16.05
MB)
--
http://collections.mun.ca/PDFs/theses/Welshman_TammyLynnGosse.pdf
CONTENTdm file name
62787.cpd
