- Email: [email protected]
The effect of styrene α-substituents on the regiochemistry of [2+2] cycloadditions with difluoroallene.
Tetrahedron Letters,Vol.28,No.l4,pp Printed in Great Britain
1491-1492,1987
0040-4039/87 $3.00 + .OO Pergamon Journals Ltd.
'IRE EFFECT OF STYRENE a-SUBST'ITUENTS ON THE REGIOCHEMISTRY OF [2+2] CYCLOADDITIONS WITH DIFLUOROALLENE. William Department
R. Dolbier, Jr.* and Mark Seabury of Chemistry, University of Florida Gainesville, Florida 32611
Summary: Consistent with our hypothesis for a mechanism involving two kinetically-distinct diradical intermediates, the observed effects of styrene a-substituents can be explained as deriving either from steric effects or radical stabilizing effects.
In a detailed (DPA)
with
study
of the
of the
stereochemistry
-.- + t-c
Z-B-deuterpstvrene.
[2+2]
the necessitv
we proposed
cycloaddition
of invoking
of difluoroallene
at least
two
u I
observed
in degree
similar
rationalization.
2
results
jx,+pg; 59%
1
RETENTION intermediates in order
diradical
differences
explaining
pcI=\D *
H
F kinetically-distinct
I
for
A simplified
of retention
in the
cycloadditions
’
79% 3 RETENTION t4.6:1) + to rationalize satisfactorily
two products
1 and
of dimethylallene,
representation
of the proposed
2.'
proposed mechanism
Pasto
the
and
Yang,
in
a similar is presented
below:
F
k TOt._
!k
3a
3b 1
krot.‘kCYCI. 1+2
MAINLY
1
(CA.50:501 In an effort factors
which
reactions, component
we
to probe
the
should
have
an
sought
to perturb
at the a-position.
details
impact the It was
of this
upon
mechanism,
the regiochemical
system
systematically
considered
1491
probable
so as and
to more
through that
fully
stereochemical substitution
an increase
elucidate outcome of the
in radical
those of such styrene
1492
stabilizing
ability
regioselective fraction
would decrease
and highly
of conversion
stereoselective" chlorine
the reactivity
stereoselective"
to the second,
intermediate,
or phenyl would
3b.
Therefore
lead to greater
rotation
"highly-reactive,
it might be expected
reluctance
to be more sterically
the 3a, with a resultant
of regioselectivity.
Regiochemistry
for [2+2] Cycloadditions
H Me Et isobu isopr F Cl Ph The results3 mentioned
which are presented However,
expectations.
the effect of steric bulk at the a-position below.
The relative
concentrations
6
this type must be playing inhibition,
which
vs H steric effects
Acknowledgement. the Petroleum
Without
a role.
Research
consistent
with the above-
equilibria
such as that shown
A and B could exert considerable
e such steric considerations makes
[2+2] Cycloadditions
with our observed
have not been observed
of this research
Fund administered
very sensitive
in yield as R increases
in our cycloaddition
Studies before,
all of the results
in part by the National
by the American
the ratio of 5:6
it clear that a steric effect of
are generally
drop-off
at least to some degree to explain
Support
%6(+0.3%)' 18.9 20.4 29.4 30.3 68.7 20.4 14.5 15.6
model does not take into account
on conformational
The result for R=isopropyl
is consistent
appear to be required
as
from
-sFGzPh-i
upon the ratio of products.
should not go below 50:50.
mechanistic
of conformations
A influence
%5(+0.3%) 81.1 79.6 70.6 69.7 31.3 79.6 85.5 84.4
in the Table are generally
our simplistic
Hence
deriving
of DFA with a-R-Styrenes.
Isolated Yield4 35% 37% 28% 22% 15% 26% 23% 18%
Reaction Temp, OC 100°C. 3hrs 1OOOC; 3hrs 100°C, 3hrs 100°C, 3hrs 100°C, 3hrs lOO'C, 3hrs lOO'C, 3hrs 100°C, 3hrs
R
for 3a to
crowded.
ethyl, etc. one might expect more product
Table
such as
On the other hand, as we increase
regioselectivity.
we were to change R from 8 to methyl, diminishment
its
and less
that substituents
R, one might expect an increased
to form 3b, which would be expected
non-
3a, and hence enhance
more-regioselective
"less reactive,
the steric bulk of the a-substituent, undergo
of the proposed
first intermediate,
Chemical
Science Society
to steric
in size.
F
but they
in this study. Foundation
and by
is acknowledged
by
the authors with thanks. References
and Footnotes.
1.
Dolbier,
W. R. Jr.; Wicks, G. E.
2.
Pasta, D. J.; Yang, S. H.
3. 4.
Products Title
5.
Product
J. Am. Chem. Sot. 1985, 107,
J. Am. Chem. Sot. 1964, 106,
5 and 6 for each R were fully characterized
reaction
is very clean one; low yields
ratios determined
by g.c..
(Received in USA 6 November 1986)
3626.
152.
by 'R, 13C, and "F
caused by competitive
NMR.
oligomerisation
of DFA.
1491-1492,1987
0040-4039/87 $3.00 + .OO Pergamon Journals Ltd.
'IRE EFFECT OF STYRENE a-SUBST'ITUENTS ON THE REGIOCHEMISTRY OF [2+2] CYCLOADDITIONS WITH DIFLUOROALLENE. William Department
R. Dolbier, Jr.* and Mark Seabury of Chemistry, University of Florida Gainesville, Florida 32611
Summary: Consistent with our hypothesis for a mechanism involving two kinetically-distinct diradical intermediates, the observed effects of styrene a-substituents can be explained as deriving either from steric effects or radical stabilizing effects.
In a detailed (DPA)
with
study
of the
of the
stereochemistry
-.- + t-c
Z-B-deuterpstvrene.
[2+2]
the necessitv
we proposed
cycloaddition
of invoking
of difluoroallene
at least
two
u I
observed
in degree
similar
rationalization.
2
results
jx,+pg; 59%
1
RETENTION intermediates in order
diradical
differences
explaining
pcI=\D *
H
F kinetically-distinct
I
for
A simplified
of retention
in the
cycloadditions
’
79% 3 RETENTION t4.6:1) + to rationalize satisfactorily
two products
1 and
of dimethylallene,
representation
of the proposed
2.'
proposed mechanism
Pasto
the
and
Yang,
in
a similar is presented
below:
F
k TOt._
!k
3a
3b 1
krot.‘kCYCI. 1+2
MAINLY
1
(CA.50:501 In an effort factors
which
reactions, component
we
to probe
the
should
have
an
sought
to perturb
at the a-position.
details
impact the It was
of this
upon
mechanism,
the regiochemical
system
systematically
considered
1491
probable
so as and
to more
through that
fully
stereochemical substitution
an increase
elucidate outcome of the
in radical
those of such styrene
1492
stabilizing
ability
regioselective fraction
would decrease
and highly
of conversion
stereoselective" chlorine
the reactivity
stereoselective"
to the second,
intermediate,
or phenyl would
3b.
Therefore
lead to greater
rotation
"highly-reactive,
it might be expected
reluctance
to be more sterically
the 3a, with a resultant
of regioselectivity.
Regiochemistry
for [2+2] Cycloadditions
H Me Et isobu isopr F Cl Ph The results3 mentioned
which are presented However,
expectations.
the effect of steric bulk at the a-position below.
The relative
concentrations
6
this type must be playing inhibition,
which
vs H steric effects
Acknowledgement. the Petroleum
Without
a role.
Research
consistent
with the above-
equilibria
such as that shown
A and B could exert considerable
e such steric considerations makes
[2+2] Cycloadditions
with our observed
have not been observed
of this research
Fund administered
very sensitive
in yield as R increases
in our cycloaddition
Studies before,
all of the results
in part by the National
by the American
the ratio of 5:6
it clear that a steric effect of
are generally
drop-off
at least to some degree to explain
Support
%6(+0.3%)' 18.9 20.4 29.4 30.3 68.7 20.4 14.5 15.6
model does not take into account
on conformational
The result for R=isopropyl
is consistent
appear to be required
as
from
-sFGzPh-i
upon the ratio of products.
should not go below 50:50.
mechanistic
of conformations
A influence
%5(+0.3%) 81.1 79.6 70.6 69.7 31.3 79.6 85.5 84.4
in the Table are generally
our simplistic
Hence
deriving
of DFA with a-R-Styrenes.
Isolated Yield4 35% 37% 28% 22% 15% 26% 23% 18%
Reaction Temp, OC 100°C. 3hrs 1OOOC; 3hrs 100°C, 3hrs 100°C, 3hrs 100°C, 3hrs lOO'C, 3hrs lOO'C, 3hrs 100°C, 3hrs
R
for 3a to
crowded.
ethyl, etc. one might expect more product
Table
such as
On the other hand, as we increase
regioselectivity.
we were to change R from 8 to methyl, diminishment
its
and less
that substituents
R, one might expect an increased
to form 3b, which would be expected
non-
3a, and hence enhance
more-regioselective
"less reactive,
the steric bulk of the a-substituent, undergo
of the proposed
first intermediate,
Chemical
Science Society
to steric
in size.
F
but they
in this study. Foundation
and by
is acknowledged
by
the authors with thanks. References
and Footnotes.
1.
Dolbier,
W. R. Jr.; Wicks, G. E.
2.
Pasta, D. J.; Yang, S. H.
3. 4.
Products Title
5.
Product
J. Am. Chem. Sot. 1985, 107,
J. Am. Chem. Sot. 1964, 106,
5 and 6 for each R were fully characterized
reaction
is very clean one; low yields
ratios determined
by g.c..
(Received in USA 6 November 1986)
3626.
152.
by 'R, 13C, and "F
caused by competitive
NMR.
oligomerisation
of DFA.