Electrolysis: processes – compositions used therein – and methods – Electrolytic synthesis – Preparing organic compound
Reexamination Certificate
2002-01-31
2004-08-17
Wong, Edna (Department: 1753)
Electrolysis: processes, compositions used therein, and methods
Electrolytic synthesis
Preparing organic compound
C205S452000, C205S453000
Reexamination Certificate
active
06776894
ABSTRACT:
The present invention relates to a process for the preparation of a compound of the general formula I
where R
1
, R
2
, R
3
are hydrogen, C
1
- to C
20
-alkyl, C
2
- to C
20
-alkenyl, C
2
- to C
20
-alkynyl, C
3
- to C
12
-cycloalkyl, C
4
- to C
20
-cycloalkyl-alkyl, C
1
- to C
20
-hydroxyalkyl, or aryl or C
7
- to C
20
-arylalkyl which is unsubstituted or substituted by C
1
- to C
8
-alkyl, C
1
- to C
8
-alkoxy, halogen, C
1
- to C
4
-haloalkyl, C
1
- to C
4
-haloalkoxy, phenyl, phenoxy, halophenyl, halophenoxy, carboxyl, C
2
- to C
8
-alkoxycarbonyl or cyano, or R
1
and R
2
or R
3
together are a C
2
- to C
9
-alkanediyl unit which is unsubstituted, monosubstituted or disubstituted by C
1
- to C
8
-alkyl, C
1
- to C
8
-alkoxy and/or halogen and in which one or two methyl groups may also be replaced by a (CH═CH) unit and R
3
is additionally an acetylated carbonyl group in which the alkoxy groups are derived from an alcohol of the general formula II
R
4
—OH II
where R
4
is C
1
- to C
6
-alkyl, and
U is an acetylated carbonyl group in which the alkoxy groups are derived from an alcohol of the general formula II, or is a compound of the general formula III
R
3
—V—W—R
1
III
where R
1
is as defined under the formula I, and R
3
is exclusively aryl which is unsubstituted or substituted by C
1
- to C
8
-alkyl, C
1
- to C
8
-alkoxy, halogen, C
1
- to C
4
-haloalkyl, C
1
- to C
4
-haloalkoxy, phenyl, phenoxy, halophenyl, halophenoxy, carboxyl, C
2
- to C
8
-alkoxycarbonyl or cyano,
V is a carbonyl group or is as defined for U under the formula I, and
W is as defined for V, with the proviso that one of the groups V and W is a carbonyl group and the other is an acetylated carbonyl group,
or
a compound of the general formula IV
R
3
—V—W—O—R
4
IV
where R4 is as defined under the formula II, V and W are as defined under the formula III and R3 is as defined under the formula III,
by subjecting a compound of the general formula V
where V, R
1
, R
2
and R
3
are as defined under the formula I or III, with the proviso that
in the case where a compound of the formula III is desired, use is only made of a compound Va in which
R
1
is exclusively hydrogen and
R
3
is exclusively aryl which is unsubstituted or substituted by C
1
- to C
8
-alkyl, C
1
- to C
8
-alkoxy, halogen, C
1
- to C
4
-haloalkyl, C
1
- to C
4
-haloalkoxy, phenyl, phenoxy, halophenyl, halophenoxy, carboxyl, C
2
- to C
8
-alkoxycarbonyl or cyano, and
in the case where a compound of the formula IV is desired, use is only made of a compound Vb in which
R
1
and R
2
are exclusively hydrogen,
R
3
is exclusively aryl which is unsubstituted or substituted by C
1
- to C
8
-alkyl, C
1
- to C
8
-alkoxy, halogen, C
1
- to C
4
-haloalkyl, C
1
- to C
4
-haloalkoxy, phenyl, phenoxy, halophenyl, halophenoxy, carboxyl, C
2
- to C
8
-alkoxycarbonyl or cyano,
To an electrochemical reaction with an alcohol of the general formula II in the presence of an auxiliary electrolyte and catalytic amount of a metal salt (S) derived from a metal from the 1
st
, 2
nd
, 6th or 8
th
subgroup (subgroups IB, IIB, VIB or VIIIB; also known as Groups 11, 12, 6 and 8-10, respectively) of the periodic table, or from lead, tin or rhenium.
EP-A-460 451 discloses a process for the preparation of &agr;-hydroxymethyl ketals by electrochemical oxidation of aldehydes or ketones in the presence of alcohols and halogen compounds as auxiliary electrolytes. Repetition of the examples shows that more highly oxidized carbonyl compounds are also formed under the process conditions described if the carbonyl group is in the &agr;-position to an aromatic radical. Thus, for example, a methylene group in the &agr;-position to the carbonyl group can be oxidized to the carbonyl function and in addition the aldehyde or keto carbonyl group originally present can be oxidized to the carboxyl group. Thus, it is not only &agr;-hydroxyketals that are formed, but also &agr;-ketaldehydes, &agr;-ketoacetals, &agr;-ketalcarboxylic esters and &agr;-keto orthoesters. However, this process is still not entirely satisfactory since the overall yield of these target products is relatively low and in addition large amounts of other substantially unusable products are formed.
German Patent Application 19904929, which is not a prior publication, relates to a process for the preparation of 2,2,3,3-tetramethoxypropanol by electrochemical oxidation of methylglyoxal dimethyl acetal using a mixture comprising methanol, water and an auxiliary electrolyte as electrolysis medium and an iron, steel, platinum or zinc cathode.
It is an object of the present invention to provide an electrochemical process by means of which &agr;-hydroxyketals, &agr;-ketalaldehydes, &agr;-ketoacetals, &agr;-ketalcarboxylic esters and &agr;-keto orthoesters can be prepared from keto or aldehyde carbonyl compounds. We have found that this object is achieved by the. process defined above.
The process according to the invention is particularly suitable for the preparation of compounds of the general formulae I, III and IV, where the radical R
4
in the acetylated carbonyl group is derived from methanol or ethanol.
Of the compounds of the formula I, preference is given to those of the formula Ia
where U is as defined in formula I,
n is 0, 1, 2 or 3, and
R
5
is C
1
- to C
8
-alkyl, C
1
- to C
8
-alkoxy, halogen, C
1
- to C
4
-haloalkyl, C
1
- to C
4
-haloalkoxy, phenyl, phenoxy, halophenyl, halophenoxy, carboxyl, C
2
- to C
8
-alkoxycarbonyl or cyano.
Preference is likewise given to compounds of the general formula IIIa
where n, V, W and R
5
are as defined under the formula Ia or III,
or of the general formula IVa
where n, V, W, R
4
and R
5
are as defined under the formula Ia or IIIa.
These compounds are prepared by employing as starting compound of the general formula V a compound of the general formula Va
where n and R
5
are as defined under the formula Ia.
The process is furthermore particularly suitable for the preparation of compounds of the general formula:
H
2m+1
C
m
—CHOH—CH(OR
4
)
2
where m is a number from 1 to 10, and R
4
is as defined in formula II, and for whose preparation use is made of a compound of the general formula:
H
2m+1
C
m
—CH
2
—CHO—
The process is very particularly suitable for the preparation of
2-phenyl-2,2-dimethoxyethanol, 2-phenyl-2,2-dimethoxyacetaldehyde and 2-phenylglyoxal dimethyl acetal from methanol and acetophenone
&agr;-hydroxyoctanal dimethyl acetal from octanal and
2,2,3,3-tetramethoxypropanol from methylglyoxal dimethyl acetal.
The auxiliary electrolyte present in the electrolysis solution is generally a halogen-containing auxiliary electrolyte, such as elemental halogen, an alkyl halide or a hydrogen halide. Halogen-containing salts, in particular iodides or bromides, can also preferably be employed. Examples are ammonium halides, such as ammonium bromide, ammonium iodide and tetrabutylammonium iodide. Particularly preferred metal halides are furthermore alkali metal halides, such as sodium bromide, sodium iodide, potassium iodide and potassium bromide.
The metal salts (S) are preferably those derived from mineral acids. The anions of the metal salt are thus, for example, phosphate, sulfate, nitrate, perchlorate or halide.
The cations of the metal salt (S) are preferably iron, nickel, platinum, palladium, cobalt, zinc, silver or copper ions. The metal salt (S) is generally added to the electrolysis solution in amounts such that its metal ions are present therein in amounts of from 1 to 1000 ppm by weight, preferably from 5 to 500 ppm by weight, particularly preferably from 5 to 300 ppm by weight, based on the total amount of electrolysis liquid.
If desired, conventional co-solvents are added to the electrolysis liquid. These are the inert solvents having a high oxidation potential which are generally conventional in organic chemistry. Examples which may be mentioned are dimethyl carbonate and propylene carbonate. Besides said co-solvents, water can also be added to the electrolysis liquid, although the water content should not
Botzem Jörg
Pütter Hermann
Schierle-Arndt Kerstin
BASF - Aktiengesellschaft
Oblon & Spivak, McClelland, Maier & Neustadt P.C.
Wong Edna
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