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A facile synthesis of aromatic trifluoromethyl compounds via orthothio esters
Tetrahedron Letters,Vo1.27,No.40,pp Printed in Great Britain
A FACILE
SYNTHESIS
OF AROMATIC
0040-4039/86 $3.00 + .OO Pergamon Journals Ltd.
4861-4864,1986
TRIFLUOROMETHYL
COMPOUNDS
VIA ORTHOTHIO
ESTERS
Donald P. Matthews, Jeffrey P. Whitten, James R. McCarthy* Merrell Dow Research Institute, Indianapolis Center Indianapolis, Indiana 46268-0470
Abstract:
Aromatic
orthothio
esters
(NBS) followed by literature
trifluoromethyl
(2) are prepared
(Ll with 1,3-dibromo-5,5_dimethylhydantoin
by HF/pyridine
The starting
complex.
by treatment
of aromatic
(DBH) or N-bromosuccinimide
materials
(1) were readily
obtained
methodology.
There has been considerable pharmaceutical
interest
and agricultural
for the introduction the number
compounds
in trifluoromethyl-substituted
agents.'
of trifluoromethyl
of methods
recently
The importance
of developing
groups onto aromatic
reported
aromatic
compounds
for this transformation.*
compounds
as
useful methodology is demonstrated
However,
by
these methods
require
highly toxic or expensive reagents and/or vigorous reaction conditions. Very *a recently, Wiemers and Burton reported an elegant method for the preparation of benzotrifluorides
-via a metathesis
reaction
utilizing
Freons to generate
a stable CF3Cu
species.
We wish to report a convenient compounds multigram followed
(21 that is readily scale.
Treatment
by the addition
likely proceeds
procedure
of an aromatic
of HFlpyridine
by similar mechanism
glycosyl
fluorides
reported
difluoro
compounds
from thioacetals
by Nicolaou
esters
with ethanethiol
treatment
orthothio
and either
esters
with trimethylsilylmethylsulfide
This new reaction
and the formation
on a
most
to
of geminal
and Katzenellenbogen.5
prepared
from the corresponding
(1, R=Mel were obtained
4861
aromatic
conditions
(L13 with either DBH or NBS,
zinc chloride3a
and aluminum
reaction
of phenyl thioglycosides
by Pochapsky
(l_, R=Etl were readily
trimethylorthothio
ester
and co-workers,4
reported
chloride
Alternatively,
of trifluoromethyl
provided 1 (see Table).
as the conversion
The triethylorthothio by treatment
for the preparation
carried out under normal laboratory
chloride.
or aluminum
acid
chloride.3b
from the methyl ester by 3b
4862
Table.
Formation
of Aryltrifluoromethyl
Compounds
(2) from Orthothio
ArC(SR)3
Esters
l7
ArCF3
1
2
Entry
-R
% Yielda
mp/bp'C
a
Et
59
64-66'
b
Et
49
64.5-66.5'
Et 173-174
(St
h
OzN\ /
aBased on isolated Lit. mp availablle. sample. bromine.
purified
fDehalo9enated gLit.
product.
dIsolated
bLit.
Me
46
Et
40
55-56 (MeOH/H*O)
Et
67f
d,9
Et
37f
160-170
Me
34
41eyh
(Ref. 8) does not report mp.
as a colorless
oil.
eIdentical
(EtOH, 10% Pd/C, KOAc, 50 psi hydrogen)
(Ref. 9) bp 81°C
(lmm).
(7601nn)~'~
hmp of sample
'No
to an authentic to remove
from Aldrich,
41-42°C.
(0.7mm)d
4863
An example
of the experimental
To a dry 3-neck
procedure
flask with stirring
added 1,3-dibromo-5,5_dimethylhydantoin mixture
for the preparation
bar, thermometer,
The reaction
minutes
at -20 to -30°C.
plastic
syringe.
while warming
reaction
occurs
basic alumina initially
The desired
alumina. disulfide.
HFlpyridine
The thermometer
column containing
Evaporation
complex
elutes
of the appropriate
fractions
1170 (sym CF Ar), 1133 cm-l (sym CF3Arl; 3 (CI/CH4) m/z 223 (MH ).
for the reaction
The reaction
compatible observed
tolerates
Compound -2e was isolated
for -2e and -2f.
trifluoride
and -2f as a mixture
were dehalogenated
of the volatile
disulfide
by treatment
of the CH2C12 elutant
through
In conclusion, available
ester
poor aromatic
bromination
2959,
1328
(ml:
(asym
MS
of electron
rich rings was
product.
The brominated
products
(EtOH, 10% Pd/C, KOAc, 50 psi H21. in entry 2c required
containing
removal
of ethyl
3,4-dichlorobenzotrifluoride
by silica gel flash chromatography was isolated
free of disulfide of methyl
with
(pentanel.
by utilizing
disulfide
after
reagents.
for obtaining
or methyl esters
The reaction
of aromatic
1 provides
conditions
trifluoromethyl
a two step procedure
that requires
no special equipment
from readily and utilizes
are mild and provide a convenient
compounds
including
route to
the novel analogues -2e and
Is*
Acknowledgment: data.
of
rings and is
as the meta-(4-bromophenoxyl-benzo-
(entry d) by simple distillation
the new method
gram quantities
IR (CC14)
alumina.
acid chlorides
inexpensive
acid followed
neutralization
Both NBS and DBH gave similar yields
obtained
3,4-dichlorobenzotrifluoride
the trimethylorthothio
A vigorous
to slowly adsorb on the
provided -2a' as a white crystalline
and desired
conditions
benzotrifluoride
excess meta-chloroperbenzoic
filtration
of monobromo
under standard
Isolation
Alternatively,
concomitant
for one hour
front with a small amount of ethyl
rich and electron
However,
with thioethers.
was stirred
lH NMR (CDC13) 6 7.3-7.7
are not critical.
electron
(5 mL) was
to stir for 3
was poured onto a large
(1.3 g, 59%1, mp 64-66°C;
CF3Ar),
2a -*
is allowed
near the solvent
solid after drying under high vacuum
The conditions
mixture
(300 mL1 packed with CH2C12. mixture
The
(10 mL1 was added via a disposable
and the reaction
The yellow-orange
(100 mL).
in CH2C12
and was allowed
(Aldrich)
was removed
as the reaction
product
of -la 3a (3.5 g, 10 mmoll
turned yellow-orange
to room temperature.
inlet valve and septum was
(11.4 g, 40 mmol) and dry CH2C12
was cooled to -20°C and a solution
added via syringe.
of 2 from 1 is as follows:
nitrogen
We thank Mr. Robert
J. Barbuch
and Dr. Michael
R. Whalon
for spectral
4864
REFERENCES
1. (a) "Organofluorine Ellis Horwood Chemistry;"
2.
Ltd.:
Filler,
(al Wiemers,
Compounds
and their
Chichester,
Industrial
1979.
R.; Kobayashi,
(NY) 1985, 34, 319.
3929.
(d) Marho1d.A
(cl Umemoto,
.; Klauke,
T.; Miyano,
E. J. Fluorine
by the method of Rinzema,
1959, 78, 354 or -via the method Purified
chloride.
samples obtained mm); $ 250°C
New York,
D.M.; Burton, D.J. J. Am. Chem. Sot. 1986, 108, 832.
React.
(a) Prepared
Banks,
Chem.
bp 220°C (0.6 mm).
(0.5 mm); k, (bl Breslow,
J.; Arens,
4. Nicolaou, K.C.; Dolle, R.E.; Papahatjis,
J. Rec. trav. chim.
3b from the corresponding (CH2C12/Hexanes).
-la, bp 260°C
bp 250-260°C R.; Pandey,
C.J. Org.
1982, 23,
1981,2, 281. (e) Jones, LG.
in reference
distillation:
Lett.
sited therein.
by silica gel flash chromatography
by Kugelrohr
1982.
(b) Wang,
0. Tetrahedron
L.; Stoffelsma,
reported
R.E., Ed.,
Aspects of Fluorine
Y. Eds., Nodansha/Elsevier:
J. Am. Chem. Sot. 1947, -69, 2346, and references 3.
Applications;"
(b) "Biomedical
(0.3 mm);
(0.5 mm); If, bp 230°C
P.S. J. Org.
acid
Analytical
-lb, bp 265°C (1.6 (0.3 mm); 9,
bp
Chem. 1980,45, 740.
D.P.; Randall,
J.L. J. Am. Chem. SOC. 1984,
-106, 4189. 5.
Pochapsky,
S.S.; Katzenellenbogen,
of the American
Chemical
Society, Washington,
6.
Rinzema,
Society,
J.; Arens,
7. All new compounds gave satisfactory with the assigned
8.
Trost, 8.M.; Arndt,
9.
Markarian,
M. J. Am.
Chicago,
of Papers;"
IL, September,
190th National
1985; American
J. Rec. trav. chim.
elemental
analyses
1959, 78, 354.
and 'H NMR,
structures.
H.C. J. Am. Chem. Sot. 1973, 95, 5288.
Chem. Sot. 1952,74, 1858.
(Received in USA 18 June 1986)
Meeting
Chemical
DC, 1985; ORG 110.
L.; Stoffelsma,
consistent
J.A. "Abstracts
IR and MS
A FACILE
SYNTHESIS
OF AROMATIC
0040-4039/86 $3.00 + .OO Pergamon Journals Ltd.
4861-4864,1986
TRIFLUOROMETHYL
COMPOUNDS
VIA ORTHOTHIO
ESTERS
Donald P. Matthews, Jeffrey P. Whitten, James R. McCarthy* Merrell Dow Research Institute, Indianapolis Center Indianapolis, Indiana 46268-0470
Abstract:
Aromatic
orthothio
esters
(NBS) followed by literature
trifluoromethyl
(2) are prepared
(Ll with 1,3-dibromo-5,5_dimethylhydantoin
by HF/pyridine
The starting
complex.
by treatment
of aromatic
(DBH) or N-bromosuccinimide
materials
(1) were readily
obtained
methodology.
There has been considerable pharmaceutical
interest
and agricultural
for the introduction the number
compounds
in trifluoromethyl-substituted
agents.'
of trifluoromethyl
of methods
recently
The importance
of developing
groups onto aromatic
reported
aromatic
compounds
for this transformation.*
compounds
as
useful methodology is demonstrated
However,
by
these methods
require
highly toxic or expensive reagents and/or vigorous reaction conditions. Very *a recently, Wiemers and Burton reported an elegant method for the preparation of benzotrifluorides
-via a metathesis
reaction
utilizing
Freons to generate
a stable CF3Cu
species.
We wish to report a convenient compounds multigram followed
(21 that is readily scale.
Treatment
by the addition
likely proceeds
procedure
of an aromatic
of HFlpyridine
by similar mechanism
glycosyl
fluorides
reported
difluoro
compounds
from thioacetals
by Nicolaou
esters
with ethanethiol
treatment
orthothio
and either
esters
with trimethylsilylmethylsulfide
This new reaction
and the formation
on a
most
to
of geminal
and Katzenellenbogen.5
prepared
from the corresponding
(1, R=Mel were obtained
4861
aromatic
conditions
(L13 with either DBH or NBS,
zinc chloride3a
and aluminum
reaction
of phenyl thioglycosides
by Pochapsky
(l_, R=Etl were readily
trimethylorthothio
ester
and co-workers,4
reported
chloride
Alternatively,
of trifluoromethyl
provided 1 (see Table).
as the conversion
The triethylorthothio by treatment
for the preparation
carried out under normal laboratory
chloride.
or aluminum
acid
chloride.3b
from the methyl ester by 3b
4862
Table.
Formation
of Aryltrifluoromethyl
Compounds
(2) from Orthothio
ArC(SR)3
Esters
l7
ArCF3
1
2
Entry
-R
% Yielda
mp/bp'C
a
Et
59
64-66'
b
Et
49
64.5-66.5'
Et 173-174
(St
h
OzN\ /
aBased on isolated Lit. mp availablle. sample. bromine.
purified
fDehalo9enated gLit.
product.
dIsolated
bLit.
Me
46
Et
40
55-56 (MeOH/H*O)
Et
67f
d,9
Et
37f
160-170
Me
34
41eyh
(Ref. 8) does not report mp.
as a colorless
oil.
eIdentical
(EtOH, 10% Pd/C, KOAc, 50 psi hydrogen)
(Ref. 9) bp 81°C
(lmm).
(7601nn)~'~
hmp of sample
'No
to an authentic to remove
from Aldrich,
41-42°C.
(0.7mm)d
4863
An example
of the experimental
To a dry 3-neck
procedure
flask with stirring
added 1,3-dibromo-5,5_dimethylhydantoin mixture
for the preparation
bar, thermometer,
The reaction
minutes
at -20 to -30°C.
plastic
syringe.
while warming
reaction
occurs
basic alumina initially
The desired
alumina. disulfide.
HFlpyridine
The thermometer
column containing
Evaporation
complex
elutes
of the appropriate
fractions
1170 (sym CF Ar), 1133 cm-l (sym CF3Arl; 3 (CI/CH4) m/z 223 (MH ).
for the reaction
The reaction
compatible observed
tolerates
Compound -2e was isolated
for -2e and -2f.
trifluoride
and -2f as a mixture
were dehalogenated
of the volatile
disulfide
by treatment
of the CH2C12 elutant
through
In conclusion, available
ester
poor aromatic
bromination
2959,
1328
(ml:
(asym
MS
of electron
rich rings was
product.
The brominated
products
(EtOH, 10% Pd/C, KOAc, 50 psi H21. in entry 2c required
containing
removal
of ethyl
3,4-dichlorobenzotrifluoride
by silica gel flash chromatography was isolated
free of disulfide of methyl
with
(pentanel.
by utilizing
disulfide
after
reagents.
for obtaining
or methyl esters
The reaction
of aromatic
1 provides
conditions
trifluoromethyl
a two step procedure
that requires
no special equipment
from readily and utilizes
are mild and provide a convenient
compounds
including
route to
the novel analogues -2e and
Is*
Acknowledgment: data.
of
rings and is
as the meta-(4-bromophenoxyl-benzo-
(entry d) by simple distillation
the new method
gram quantities
IR (CC14)
alumina.
acid chlorides
inexpensive
acid followed
neutralization
Both NBS and DBH gave similar yields
obtained
3,4-dichlorobenzotrifluoride
the trimethylorthothio
A vigorous
to slowly adsorb on the
provided -2a' as a white crystalline
and desired
conditions
benzotrifluoride
excess meta-chloroperbenzoic
filtration
of monobromo
under standard
Isolation
Alternatively,
concomitant
for one hour
front with a small amount of ethyl
rich and electron
However,
with thioethers.
was stirred
lH NMR (CDC13) 6 7.3-7.7
are not critical.
electron
(5 mL) was
to stir for 3
was poured onto a large
(1.3 g, 59%1, mp 64-66°C;
CF3Ar),
2a -*
is allowed
near the solvent
solid after drying under high vacuum
The conditions
mixture
(300 mL1 packed with CH2C12. mixture
The
(10 mL1 was added via a disposable
and the reaction
The yellow-orange
(100 mL).
in CH2C12
and was allowed
(Aldrich)
was removed
as the reaction
product
of -la 3a (3.5 g, 10 mmoll
turned yellow-orange
to room temperature.
inlet valve and septum was
(11.4 g, 40 mmol) and dry CH2C12
was cooled to -20°C and a solution
added via syringe.
of 2 from 1 is as follows:
nitrogen
We thank Mr. Robert
J. Barbuch
and Dr. Michael
R. Whalon
for spectral
4864
REFERENCES
1. (a) "Organofluorine Ellis Horwood Chemistry;"
2.
Ltd.:
Filler,
(al Wiemers,
Compounds
and their
Chichester,
Industrial
1979.
R.; Kobayashi,
(NY) 1985, 34, 319.
3929.
(d) Marho1d.A
(cl Umemoto,
.; Klauke,
T.; Miyano,
E. J. Fluorine
by the method of Rinzema,
1959, 78, 354 or -via the method Purified
chloride.
samples obtained mm); $ 250°C
New York,
D.M.; Burton, D.J. J. Am. Chem. Sot. 1986, 108, 832.
React.
(a) Prepared
Banks,
Chem.
bp 220°C (0.6 mm).
(0.5 mm); k, (bl Breslow,
J.; Arens,
4. Nicolaou, K.C.; Dolle, R.E.; Papahatjis,
J. Rec. trav. chim.
3b from the corresponding (CH2C12/Hexanes).
-la, bp 260°C
bp 250-260°C R.; Pandey,
C.J. Org.
1982, 23,
1981,2, 281. (e) Jones, LG.
in reference
distillation:
Lett.
sited therein.
by silica gel flash chromatography
by Kugelrohr
1982.
(b) Wang,
0. Tetrahedron
L.; Stoffelsma,
reported
R.E., Ed.,
Aspects of Fluorine
Y. Eds., Nodansha/Elsevier:
J. Am. Chem. Sot. 1947, -69, 2346, and references 3.
Applications;"
(b) "Biomedical
(0.3 mm);
(0.5 mm); If, bp 230°C
P.S. J. Org.
acid
Analytical
-lb, bp 265°C (1.6 (0.3 mm); 9,
bp
Chem. 1980,45, 740.
D.P.; Randall,
J.L. J. Am. Chem. SOC. 1984,
-106, 4189. 5.
Pochapsky,
S.S.; Katzenellenbogen,
of the American
Chemical
Society, Washington,
6.
Rinzema,
Society,
J.; Arens,
7. All new compounds gave satisfactory with the assigned
8.
Trost, 8.M.; Arndt,
9.
Markarian,
M. J. Am.
Chicago,
of Papers;"
IL, September,
190th National
1985; American
J. Rec. trav. chim.
elemental
analyses
1959, 78, 354.
and 'H NMR,
structures.
H.C. J. Am. Chem. Sot. 1973, 95, 5288.
Chem. Sot. 1952,74, 1858.
(Received in USA 18 June 1986)
Meeting
Chemical
DC, 1985; ORG 110.
L.; Stoffelsma,
consistent
J.A. "Abstracts
IR and MS