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ESR and NMR spectra of the 2,6-dimethoxyphenyl-t -butylnitroxide radical. Experimental determination of coupling parameters by independent methods
Tetrahedron Letters Uo.57, pp.5003-5006, 1970.
ESR
AND
NMR
RADICAL.
SPECTRA
OF
THE
EXPERIMENTAL
Pergamon Press.
2,6-DIMETHOXYPHENYL-4BUTYLNITROXIDE
DETERMINATION
OF COUPLING
INDEPENDENT
H.J. Department
of
Jakobsen
Organic
PARAMETERS
BY
METHODS
and
Kurt
Torssell*
Chemistry,
8000
Printed in Great Britain.
Aarhus
University
C.
of Aarhus
Denmark
(Received in u( 2 November 1970; accepted for publication 15 November 1970)
In
view
hindered
of
aryl
recent
in
situ
describede4
in
these
In
servation
of
resolution
distribution
in
tally
unhindered
trast
to
of
tually ger
the more
or
One
simplified
the
ring
series:
less
has is
that
gauss,
nitroxide
about
the
of
Ia,
closely
feature &-butyl
is
gauss)
arising
gauss, from
a line-width
twice
give
the
limited
by
the
the
The
spin
in
sharp
hindrance.
expect
a basic
spectrum
the to
ring,
s The 3 x use
when
reasons
14 line of
group
for
these
effects
deuterated
a 3 x 3 line 5003
nitro
spectrum
spectrum
of
Ia
and
is
con-
this
1, Ib)
de-
rotated are
&-nitrosobutanes (Figure
steri-
density
the
prosmaller
N 2:1:2. This also stands a : a :a 0 m E in nitro-aromatic anions, where the spin the
the
meta-pro-
the
in
ob-
&-butyl
only.
to
con-
in
uniformly
from
rise
is much
effect
different
spectra
analysis
a-proton
gen-
other
ESR
radicals
i.e..
of
rotating,
is usually
broadening
completely
the
the
freely
the
those
in
was
previously
protons
ortho-disubstituted 0.7
that
as
complicating group
(No.1
of
resembled
a A common
0.3-0.4
thus
Furthermore, the
but
is
the
spectrum
sterically
2,6_dimethoxyphenyl-
2,6_dimethoxyiodobenzene
reported,
In
for
on
that
steric
should
from
coupling
generally the
The
doubtful.
splitting
constant
investigations
be
the
instrument.
by
obtained.
about
ESR
reported'
radicals
where
situation
conjugation
obscure.
of
whereas
and
t-butylnitroxidee.
hyperfine
the
and
that
hindered
a coupling
gauss)
to
NMR
xv4 the data
cavity
from
aryl
this
coupling,
creases
ESR
radicals,
of
have
(4.1
the
splitting
siderably.
ton
seemed
sterically
a hyperfine
tons
Ia,
differed
2,6-disubstituted of
from
&-butylnitroxides,
t-butylnitroxide, erated
results
out
still was
ac-
as
scaven-
from
which
No.57
y.m
the
meta-proton
of 4.1-0.2 radical
coupling
gauss
constant
emanating
was
from
the
determined.
A
para-proton
secondary
could
concentrations.
also
doublet be
observed
OCH,
tact 100
experimental
do
not
shifts.' MHz
lation
on
Ia
data with
was
a Varian
frequency
TABLE
Protons
agree
of
are
the
therefore
collected
earlier
synthesized6
spectrometer,
13 KHz
(Figure
Shiftsa the
Line position from TMS (Hz), Ia
in Table
reported
HA-100
1. Contact
Intensity
1. However,
values and
lH
operating
2).
NMR
spectra
the
of
radicals
Line
=
coupling
from
HR-mode
NMR
with
are
Ia
Calc.h_fs. (gauss) Ia
concon-
characterized
for
hfs. from ESR(gauss), Ia and Ib
-567
+1267
210
-0.17
0.1-0.2
m-H
2
+6ol4
-5314
825
+0.71
0.69
t-Butyl
9
-2216
+2326
630
-0.31
0.33
OCH,
6
+670
-292
220
+0.04
very
Hz
and
broad
signals
extraordinary
determination
of
with large
signs
and
chemical
shift
a line
width
shifts,
the
magnitudes
data
of Ref.3
at half
peak
direction
and
of
the
hyperfine
for
the
height
of
magnitude coupling
at
a modu-
1
aIn Hz at 100 MHz. b Calculated using the hydroxylamine.
d,
recorded
Constants obtained 13.3 gauss
width
(Ha),
R = 4-Bu,
spectrum
in
and Hyperfine Splitting Radicals Ia and Ib, aN Shift (AH) fro$ hydroxylamine (Ha)
NMR
R = L-BU
Ib
the
calculated
the
Ia
E-H
by
low
CHsO hv RNO-
stants
at
.
CHsO
The
splitting
corresponding
several
hundred
of which constants,
allow
eqn.
(11.’ = -3.73
aH I
AH&
x
lo+
Hz
(T = 295oK)
a
(1)
5005
No.57
AH. 1 nucleus
is i
the
with
shift
(positive
reference
to
in
its
the
upfield
position
in
direction)
a
related
in
ppm
diamagnetic
for
a
magnetic
compound.
a
FIG.l.
ESR Spectrum denoted the nitroxide.
FIG.2.
In tons
was
observed assignments
the
NMR
detected by
spectrum at
Kreilick.s of
NMR
Kreilick
of
+6014
Spectrum
la Hz
the
of
shown
The of
in
Ia
presence
(relative
Furthermore, were
of Ib. Spectrum
from to
be
CDCl,
of
to
a
internal
the in
peaks marked "a" di-&-butyl d,
(ca.
broad
40$
signal
TMS),
ESR
spectra
error.
The
w/w).
a of
values
from
the
meta
signal
which
Ia
Ib
and
resul.ting
pro-
was
the
not
NMR
from
the
.5006
NMR
No.57
and
ESR
perimental
spectra
the
signment I.e.,
interest like
carbon
leaks
of
NMR
the
= +0.04
a&H,
methoxy NMR
of
downfield
ring
the
present
investigation
agree
within
the
limit
of
ex-
error.
A point shifted
of
protons
spectrum,
of
is an
that
the
peak
ortho-methyl
out
on
the
absorption gauss
+670 Hz
supported
= +0.21
our
TMS)
agrees
of the
that
is
too
spin
its
the
is
density
sign.
methoxy
shifted
almost
protons
unpaired
to
finding
-nitroxide
This
gauss.
the
conservation
(from
by
ortho-methoxy
A.e.
with
bis-(E-methoxyphenyl)
asCH
the
group,
oxygen
at
is
for
The
as-
protons,
peak
for
downfield
well
on
with
the in
the
its
value
9 of
0.21
gauss
determined
by
Acknowledgement.
We
thank
nical
assistance
in
recording
grant
from
Danish
ESR
Dr.
Natural
measurements.s
K.
University
Schaumburg,
the
Science
NMR
spectra.
Research
This
of Copenhagen,
work
was
supported
for by
techa
Council.
REFERENCES
A., 1. Calder, Mol.Phys.
Forrester, l&3, 481
A.R., (1970).
2. Pedersen,
J.A.
and
3. Kreilick,
R.N.
J.Chem.Phys.
4. Torssell,
K.
5. Geske,
D.H.
6. Hoffman, 7. McConnel, 8.
Fischer,
A.,
Torssell,
Tetrahedron and
Ragle,
Feldman,
H.M. P.H.H.
and and
Emsley,
K.
To
9, 26,
J.L. A.M.,
Chesnut, Neugebaur,
J.W.,
be
1922
2759
Luckhurst,
Storey,
R.A.
(1966).
(1970).
Gelblum,
D.B.
and
published.
J.Am.Chem.Soc. and
G.R.,
2, E.
J.Chem.Phys.
F.A.
3532
(1961).
J.Am.Chem.Soc. 28,
Z.Naturforsch.
107 z,
86,
646
(1958). 1036
(1966).
(1964).
ESR
AND
NMR
RADICAL.
SPECTRA
OF
THE
EXPERIMENTAL
Pergamon Press.
2,6-DIMETHOXYPHENYL-4BUTYLNITROXIDE
DETERMINATION
OF COUPLING
INDEPENDENT
H.J. Department
of
Jakobsen
Organic
PARAMETERS
BY
METHODS
and
Kurt
Torssell*
Chemistry,
8000
Printed in Great Britain.
Aarhus
University
C.
of Aarhus
Denmark
(Received in u( 2 November 1970; accepted for publication 15 November 1970)
In
view
hindered
of
aryl
recent
in
situ
describede4
in
these
In
servation
of
resolution
distribution
in
tally
unhindered
trast
to
of
tually ger
the more
or
One
simplified
the
ring
series:
less
has is
that
gauss,
nitroxide
about
the
of
Ia,
closely
feature &-butyl
is
gauss)
arising
gauss, from
a line-width
twice
give
the
limited
by
the
the
The
spin
in
sharp
hindrance.
expect
a basic
spectrum
the to
ring,
s The 3 x use
when
reasons
14 line of
group
for
these
effects
deuterated
a 3 x 3 line 5003
nitro
spectrum
spectrum
of
Ia
and
is
con-
this
1, Ib)
de-
rotated are
&-nitrosobutanes (Figure
steri-
density
the
prosmaller
N 2:1:2. This also stands a : a :a 0 m E in nitro-aromatic anions, where the spin the
the
meta-pro-
the
in
ob-
&-butyl
only.
to
con-
in
uniformly
from
rise
is much
effect
different
spectra
analysis
a-proton
gen-
other
ESR
radicals
i.e..
of
rotating,
is usually
broadening
completely
the
the
freely
the
those
in
was
previously
protons
ortho-disubstituted 0.7
that
as
complicating group
(No.1
of
resembled
a A common
0.3-0.4
thus
Furthermore, the
but
is
the
spectrum
sterically
2,6_dimethoxyphenyl-
2,6_dimethoxyiodobenzene
reported,
In
for
on
that
steric
should
from
coupling
generally the
The
doubtful.
splitting
constant
investigations
be
the
instrument.
by
obtained.
about
ESR
reported'
radicals
where
situation
conjugation
obscure.
of
whereas
and
t-butylnitroxidee.
hyperfine
the
and
that
hindered
a coupling
gauss)
to
NMR
xv4 the data
cavity
from
aryl
this
coupling,
creases
ESR
radicals,
of
have
(4.1
the
splitting
siderably.
ton
seemed
sterically
a hyperfine
tons
Ia,
differed
2,6-disubstituted of
from
&-butylnitroxides,
t-butylnitroxide, erated
results
out
still was
ac-
as
scaven-
from
which
No.57
y.m
the
meta-proton
of 4.1-0.2 radical
coupling
gauss
constant
emanating
was
from
the
determined.
A
para-proton
secondary
could
concentrations.
also
doublet be
observed
OCH,
tact 100
experimental
do
not
shifts.' MHz
lation
on
Ia
data with
was
a Varian
frequency
TABLE
Protons
agree
of
are
the
therefore
collected
earlier
synthesized6
spectrometer,
13 KHz
(Figure
Shiftsa the
Line position from TMS (Hz), Ia
in Table
reported
HA-100
1. Contact
Intensity
1. However,
values and
lH
operating
2).
NMR
spectra
the
of
radicals
Line
=
coupling
from
HR-mode
NMR
with
are
Ia
Calc.h_fs. (gauss) Ia
concon-
characterized
for
hfs. from ESR(gauss), Ia and Ib
-567
+1267
210
-0.17
0.1-0.2
m-H
2
+6ol4
-5314
825
+0.71
0.69
t-Butyl
9
-2216
+2326
630
-0.31
0.33
OCH,
6
+670
-292
220
+0.04
very
Hz
and
broad
signals
extraordinary
determination
of
with large
signs
and
chemical
shift
a line
width
shifts,
the
magnitudes
data
of Ref.3
at half
peak
direction
and
of
the
hyperfine
for
the
height
of
magnitude coupling
at
a modu-
1
aIn Hz at 100 MHz. b Calculated using the hydroxylamine.
d,
recorded
Constants obtained 13.3 gauss
width
(Ha),
R = 4-Bu,
spectrum
in
and Hyperfine Splitting Radicals Ia and Ib, aN Shift (AH) fro$ hydroxylamine (Ha)
NMR
R = L-BU
Ib
the
calculated
the
Ia
E-H
by
low
CHsO hv RNO-
stants
at
.
CHsO
The
splitting
corresponding
several
hundred
of which constants,
allow
eqn.
(11.’ = -3.73
aH I
AH&
x
lo+
Hz
(T = 295oK)
a
(1)
5005
No.57
AH. 1 nucleus
is i
the
with
shift
(positive
reference
to
in
its
the
upfield
position
in
direction)
a
related
in
ppm
diamagnetic
for
a
magnetic
compound.
a
FIG.l.
ESR Spectrum denoted the nitroxide.
FIG.2.
In tons
was
observed assignments
the
NMR
detected by
spectrum at
Kreilick.s of
NMR
Kreilick
of
+6014
Spectrum
la Hz
the
of
shown
The of
in
Ia
presence
(relative
Furthermore, were
of Ib. Spectrum
from to
be
CDCl,
of
to
a
internal
the in
peaks marked "a" di-&-butyl d,
(ca.
broad
40$
signal
TMS),
ESR
spectra
error.
The
w/w).
a of
values
from
the
meta
signal
which
Ia
Ib
and
resul.ting
pro-
was
the
not
NMR
from
the
.5006
NMR
No.57
and
ESR
perimental
spectra
the
signment I.e.,
interest like
carbon
leaks
of
NMR
the
= +0.04
a&H,
methoxy NMR
of
downfield
ring
the
present
investigation
agree
within
the
limit
of
ex-
error.
A point shifted
of
protons
spectrum,
of
is an
that
the
peak
ortho-methyl
out
on
the
absorption gauss
+670 Hz
supported
= +0.21
our
TMS)
agrees
of the
that
is
too
spin
its
the
is
density
sign.
methoxy
shifted
almost
protons
unpaired
to
finding
-nitroxide
This
gauss.
the
conservation
(from
by
ortho-methoxy
A.e.
with
bis-(E-methoxyphenyl)
asCH
the
group,
oxygen
at
is
for
The
as-
protons,
peak
for
downfield
well
on
with
the in
the
its
value
9 of
0.21
gauss
determined
by
Acknowledgement.
We
thank
nical
assistance
in
recording
grant
from
Danish
ESR
Dr.
Natural
measurements.s
K.
University
Schaumburg,
the
Science
NMR
spectra.
Research
This
of Copenhagen,
work
was
supported
for by
techa
Council.
REFERENCES
A., 1. Calder, Mol.Phys.
Forrester, l&3, 481
A.R., (1970).
2. Pedersen,
J.A.
and
3. Kreilick,
R.N.
J.Chem.Phys.
4. Torssell,
K.
5. Geske,
D.H.
6. Hoffman, 7. McConnel, 8.
Fischer,
A.,
Torssell,
Tetrahedron and
Ragle,
Feldman,
H.M. P.H.H.
and and
Emsley,
K.
To
9, 26,
J.L. A.M.,
Chesnut, Neugebaur,
J.W.,
be
1922
2759
Luckhurst,
Storey,
R.A.
(1966).
(1970).
Gelblum,
D.B.
and
published.
J.Am.Chem.Soc. and
G.R.,
2, E.
J.Chem.Phys.
F.A.
3532
(1961).
J.Am.Chem.Soc. 28,
Z.Naturforsch.
107 z,
86,
646
(1958). 1036
(1966).
(1964).