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Novel photooxidation of alkenes sensitized by p-dimethoxybenzene
oo4oao39193 $6.00+.00 PergmnmRerr~
Novel Photooxidation
of Akaes
Uday T. Bhakrao* Organic
Division
II, Indian Institute
by p-Dime d
Wtixed
and Madabhushi Sridhar
of Chemical
Technology,
Abstract
: Photoexcited p-dimethoxybenzene catalyses to corresponding carbonyls in the presence of oxygen. Like
inorganic
also exhibit in
polar
photoinduced
solvents
semi-conductor
direction ( >280 This
in carrying
sensitizer
oxidative
conversions
benzene (DMB).
irradiated
is followed tography
procedure, at
to
not
promote
DMB
sensitization radical
of dioxetanes
and
with
column
reaction.
cations
(I mmol
medium
donating
generated
on irradiated
inorganic
to carbonyls
studies
in this
excited
states
by electron
of
studied
on the scope for
low lying
cations
possibility
groups
ejection3
extensively
We initiated
having
alkenes
as electron
are
carrying
transfer5. out
various
semiconductors.
Here
sensitized
by p-dimethoxy-
pressure
450W
in 500 ml of acetonitrile
Hanovia
atmosphere.
mercury
Progress
arc
lamp
of the reaction
were
isolated
by normal
solvents
alkenes
are not oxidized.
column
chrcma-
samples.
in
their
with
during; irradiation
each) are taken
and the products
polar
polar
Carbonyls
expect
reacting
the
replacing
of alkenes
and in deaerated
we
awaited.
l2h under an oxygen
efficiently
the
study
electron
but the studies
benzenes
conditions
and DMB6
temperature
proceed
holes
various
results are given in Yable I.
alkene
DMB
to
photooxidation
with authentic
of
to
conversions4, is still
of
as well
of amines to amine radical
us further
(> 280 nm) for
absence
could
tion
room
sleeve
and compared
reaction
by olefin
novel
having
semiconductors
methoxylated
500 007, India.
cleavage
oxygen2
(equivalent
arenes
homogeneous
by glc using SE-30
In the this
lead
under
the
oxidative
photooxidation
canpounds
phenomenon
rich
various
oxidative
to molecular cations
this
various
The representative
In a general
using a Pyrex
on
observation
we wish to report
and
Based
of electron
M-I) which initiate interesting
radical
identified
aromatic
transfer
arene
out
activity
and recently
several
electron
forming
surf ace).
as sensitizers similar
semiconductors,
Hyderabad
solvents are
the
formation
like
acetonitrile
only
from
oxidation
the
because
nonpolar
products
corresponding
super oxide anion (4’). possibly
but
readily
cleave
solvents
observed
dioxetanes
We could not identify
they
We find
under formed
the forma-
to carbonyls
in polar
solvents? To look which but
reacts
we could
for
the
possibility
efficiently
with
not observe
on6
singlet
formation hY
-flnB
OtlB+‘+ ~+oi’-
of
M
singlet
oxygen
oxygen of
as oxidant
forming
‘ene’
product
the ene product. *
_
_
we irradiated
Stilbene
POLAR SOLVLRT
BMB+’ Dt4B
[=I Scheme 4341
I
+
tetramethylethylene
as major
component
(4) is inert + m
towards
0;’
>co+o<
(85%)8, singlet
4342
9
oxygeii
but when irradiated
tentatively (Scheme
in presence
suggest the involvement I) as the major Table
I
of DMB
it cleaved
of a non-singlet
path for the observed oxidation
: p-Dimethoxybenzene K
Al krnr
to benzaldehyde.
oxygen mechanism,
Sensitized
These observations
possibly electron
transfer
of alkenes. Photooxidation
Alkenesa.
Products
Conversion
(chrtaical
60
yields1 b
Ph-CHO
Ph-
OO)C
+ph-m
PI-CnO
(bo)d
(W
zpm
30
(loo)
YeooC~m
30
-~ 6
a) Acetonitrile is used as solvent; irradiation time I2 h; b) Yields are based on the recovered starting material; c) Oligomeric products accounted for the remainer of consuned starting material; d) Yield is based on the expected formation of 2 moles of benzaldehyde from each mole of stilbene; e) Self-sensitizer. In conclusion, the first
observation
this
work
of reaction
ing the scope and mechanistic REFERENCES
1. 2. 3.
4. 5. 6. 7. 8. 9.
AND
offers
NOTES
a mild
method
under an electron
evaluation
for
oxidative
cleavage
rich arene sensitization.
of DMB sensitization
of
Further
alkenes
and
is
work extend-
is in progress.
:
IICT Communication No. 3155 R. Pottashnik, C.R. Coldshmit and M. Ottolenghi, Chem.Phys.Lett., 1971, 9, 424; Y. Taniguchi, A. Mioshi, N. Mataga, H. Shizuka and T. Morita, Chem.Phys.Lett., 1972, 15, 2223. 1.1. Grossweiner, C.W. Swenson and E.F. Zwicker, science, 1963, 141, 805; 3. Jortner, M. Ottolenghi and G. Stein, J.Am.Chem.!ioc., 1963, 58, 2712; G. Dobson and 1.1. Grossweiner, Trans.Faraday kc., 1965, 61, 708; H.1. Joschek and 1.1. Grossweiner, J.Am.Chem.Soc., 1966, 88, 3261; J. Zechner, G. Kohler, G. Grabner and N. Getoff, Chem.Phys.Lett., 1976, 27, 292; G. Grabner, W. Rauscher, J. Zechner and N. Getoff, J.Chem.Soc.,Chem.Commun. 1988, 222. Photoinduced Electron Transfer, Part D, M.A. Fox and M. Chanon Editors, Elsevier Science Publishers, The Netherlands, 1988, ~241-302. U.T. Bhalerao and M. Sridhar, J.Chem.Soc.,Chem.Canmun., 1993, 115. DMB has UV absorption above 280 nm $.,,., = 289 nm, E = 2600); Recovery of DMB in this reaction is > 80%. W.H. Richardson, F.C. Montgomery, M.B. Yelvington and H.E.0 ‘Neal, J.Am.Chem.Soc., 1974, 96, 7525. G.O. Schencl: and K. Schulte-Ute, Ann. 1958, 618, 185; C.S. Foote, Accts.Chem.Res., 1968, 1, 104; K. Gollnick, AdvamPhotochem., 1968, 6, 1. L.E. Manring, J. Erikson and C.S. Foote, J.Am.Chem.Soc., 1980, 102, 4275.
(Received in UK 13 May 1993)
Novel Photooxidation
of Akaes
Uday T. Bhakrao* Organic
Division
II, Indian Institute
by p-Dime d
Wtixed
and Madabhushi Sridhar
of Chemical
Technology,
Abstract
: Photoexcited p-dimethoxybenzene catalyses to corresponding carbonyls in the presence of oxygen. Like
inorganic
also exhibit in
polar
photoinduced
solvents
semi-conductor
direction ( >280 This
in carrying
sensitizer
oxidative
conversions
benzene (DMB).
irradiated
is followed tography
procedure, at
to
not
promote
DMB
sensitization radical
of dioxetanes
and
with
column
reaction.
cations
(I mmol
medium
donating
generated
on irradiated
inorganic
to carbonyls
studies
in this
excited
states
by electron
of
studied
on the scope for
low lying
cations
possibility
groups
ejection3
extensively
We initiated
having
alkenes
as electron
are
carrying
transfer5. out
various
semiconductors.
Here
sensitized
by p-dimethoxy-
pressure
450W
in 500 ml of acetonitrile
Hanovia
atmosphere.
mercury
Progress
arc
lamp
of the reaction
were
isolated
by normal
solvents
alkenes
are not oxidized.
column
chrcma-
samples.
in
their
with
during; irradiation
each) are taken
and the products
polar
polar
Carbonyls
expect
reacting
the
replacing
of alkenes
and in deaerated
we
awaited.
l2h under an oxygen
efficiently
the
study
electron
but the studies
benzenes
conditions
and DMB6
temperature
proceed
holes
various
results are given in Yable I.
alkene
DMB
to
photooxidation
with authentic
of
to
conversions4, is still
of
as well
of amines to amine radical
us further
(> 280 nm) for
absence
could
tion
room
sleeve
and compared
reaction
by olefin
novel
having
semiconductors
methoxylated
500 007, India.
cleavage
oxygen2
(equivalent
arenes
homogeneous
by glc using SE-30
In the this
lead
under
the
oxidative
photooxidation
canpounds
phenomenon
rich
various
oxidative
to molecular cations
this
various
The representative
In a general
using a Pyrex
on
observation
we wish to report
and
Based
of electron
M-I) which initiate interesting
radical
identified
aromatic
transfer
arene
out
activity
and recently
several
electron
forming
surf ace).
as sensitizers similar
semiconductors,
Hyderabad
solvents are
the
formation
like
acetonitrile
only
from
oxidation
the
because
nonpolar
products
corresponding
super oxide anion (4’). possibly
but
readily
cleave
solvents
observed
dioxetanes
We could not identify
they
We find
under formed
the forma-
to carbonyls
in polar
solvents? To look which but
reacts
we could
for
the
possibility
efficiently
with
not observe
on6
singlet
formation hY
-flnB
OtlB+‘+ ~+oi’-
of
M
singlet
oxygen
oxygen of
as oxidant
forming
‘ene’
product
the ene product. *
_
_
we irradiated
Stilbene
POLAR SOLVLRT
BMB+’ Dt4B
[=I Scheme 4341
I
+
tetramethylethylene
as major
component
(4) is inert + m
towards
0;’
>co+o<
(85%)8, singlet
4342
9
oxygeii
but when irradiated
tentatively (Scheme
in presence
suggest the involvement I) as the major Table
I
of DMB
it cleaved
of a non-singlet
path for the observed oxidation
: p-Dimethoxybenzene K
Al krnr
to benzaldehyde.
oxygen mechanism,
Sensitized
These observations
possibly electron
transfer
of alkenes. Photooxidation
Alkenesa.
Products
Conversion
(chrtaical
60
yields1 b
Ph-CHO
Ph-
OO)C
+ph-m
PI-CnO
(bo)d
(W
zpm
30
(loo)
YeooC~m
30
-~ 6
a) Acetonitrile is used as solvent; irradiation time I2 h; b) Yields are based on the recovered starting material; c) Oligomeric products accounted for the remainer of consuned starting material; d) Yield is based on the expected formation of 2 moles of benzaldehyde from each mole of stilbene; e) Self-sensitizer. In conclusion, the first
observation
this
work
of reaction
ing the scope and mechanistic REFERENCES
1. 2. 3.
4. 5. 6. 7. 8. 9.
AND
offers
NOTES
a mild
method
under an electron
evaluation
for
oxidative
cleavage
rich arene sensitization.
of DMB sensitization
of
Further
alkenes
and
is
work extend-
is in progress.
:
IICT Communication No. 3155 R. Pottashnik, C.R. Coldshmit and M. Ottolenghi, Chem.Phys.Lett., 1971, 9, 424; Y. Taniguchi, A. Mioshi, N. Mataga, H. Shizuka and T. Morita, Chem.Phys.Lett., 1972, 15, 2223. 1.1. Grossweiner, C.W. Swenson and E.F. Zwicker, science, 1963, 141, 805; 3. Jortner, M. Ottolenghi and G. Stein, J.Am.Chem.!ioc., 1963, 58, 2712; G. Dobson and 1.1. Grossweiner, Trans.Faraday kc., 1965, 61, 708; H.1. Joschek and 1.1. Grossweiner, J.Am.Chem.Soc., 1966, 88, 3261; J. Zechner, G. Kohler, G. Grabner and N. Getoff, Chem.Phys.Lett., 1976, 27, 292; G. Grabner, W. Rauscher, J. Zechner and N. Getoff, J.Chem.Soc.,Chem.Commun. 1988, 222. Photoinduced Electron Transfer, Part D, M.A. Fox and M. Chanon Editors, Elsevier Science Publishers, The Netherlands, 1988, ~241-302. U.T. Bhalerao and M. Sridhar, J.Chem.Soc.,Chem.Canmun., 1993, 115. DMB has UV absorption above 280 nm $.,,., = 289 nm, E = 2600); Recovery of DMB in this reaction is > 80%. W.H. Richardson, F.C. Montgomery, M.B. Yelvington and H.E.0 ‘Neal, J.Am.Chem.Soc., 1974, 96, 7525. G.O. Schencl: and K. Schulte-Ute, Ann. 1958, 618, 185; C.S. Foote, Accts.Chem.Res., 1968, 1, 104; K. Gollnick, AdvamPhotochem., 1968, 6, 1. L.E. Manring, J. Erikson and C.S. Foote, J.Am.Chem.Soc., 1980, 102, 4275.
(Received in UK 13 May 1993)