Process for preparing 2-cyanoindan-1-ones

Organic compounds -- part of the class 532-570 series – Organic compounds – Nitriles

Reexamination Certificate

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Reexamination Certificate

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06355827

ABSTRACT:

This application is a 371 of PCT/EP/98/05142 filed Aug. 13, 1998.
BACKGROUND OF THE INVENTION
The present invention relates to an improved process for preparing 2-cyanoindan-1-ones from corresponding 2-halogenoindan-1-ones by reaction with cyanide salts.
2-cyanoindan-1-ones are precursors for active compounds as described, for example in WO 96/20151 and WO 95/29171.
It is already known that 2-cyanoindan-1-one and 2-cyano-5-methoxyindan-1-one can be obtained by reacting the corresponding 2-bromoindan-1-ones with the aid of cyanide salts. Thus, J. Am. Chem. Soc. 66, 220 (1944) and 67, 1751 (1945) describe the preparation of these cyanoindan-1-ones by admixing 2-bromoindan-1-one and 2-bromo-5-methoxyindan-1-one, respectively, sodium cyanide or potassium cyanide, ethanol and water, and boiling this mixture at reflux. The yields obtained here are at best 52 and 73%, respectively. Moreover, a 10-fold molar excess of cyanide is employed, involving considerable work-hygienic expense during work-up.
DESCRIPTION OF THE INVENTION
We have now found a process for preparing 2-cyanoindan-1-ones of the formula
in which
X represents hydrogen, halogen, methyl, trifluoromethyl or methoxy,
from 2-halogenoindan-1-ones of the formula
in which
X is as defined under formula (I) and
Hal represents chlorine or bromine,
by reaction with a cyanide salt, characterized in that the cyanide salt is initially charged dissolved in a dipolar aprotic solvent or in a water-miscible ether and the 2-halogenoindan-1-one of the formula (II) is metered into this solution.
Halogen is preferably fluorine, chlorine or bromine.
In the formulae (I) and (II), X preferably represents chlorine, in particular chlorine in the 5 or 6 position. Hal in formula (II) preferably represents chlorine.
Suitable cyanide salts are, for example, alkali metal cyanides and tetraalkylammonium cyanides. Examples include sodium cyanide, potassium cyanide, lithium cyanide, rubidium cyanide, tetraethylammonium cyanide and tetrabutylammonium cyanide. The cyanide salt in question can be employed, for example, in an amount of from 1.5 to 6 mol, based on 1 mole of the compound of the formula (II). This amount is preferably from 1.6 to 5 mol, in particular from 1.8 to 3 mol.
Suitable dipolar aprotic solvents are, for example, N-methylpyrrolidone, dimethylformamide, dimethylacetamide, dimethyl sulfoxide, hexamethylphosphoric triamide, sulfolane and acetonitrile, and suitable water-miscible ethers are, for example, tetrahydrofuran and diglycol dimethyl ether. Preference is given to dimethylformamide, dimethylacetamide, N-methylpyrrolidone and dimethyl sulfoxide.
Based on 1 mole of cyanide salt, for example from 200 to 2500 ml of dipolar aprotic solvent or water-miscible ether can be,employed. This amount is preferably from 300 to 1500 ml.
The 2-halogenoindan-1-one of the formula (II) is preferably metered in such that it is added in the dissolved form and a little at a time to the cyanide salt solution which has been initially charged. Suitable solvents for the 2-halogenoindan-1-one are likewise dipolar aprotic solvents and water-miscible ethers, as described in more detail above. Preference is given to using the same solvent for dissolving the cyanide salt and for preparing the solution of the 2-halogenoindan-1-one.
Preference is furthermore given to employing the 2-halogenoindan-1-one as a 10 to 30% by weight strength, in particular as a 15 to 25% by weight strength, solution.
The cyanide salt solution and/or the 2-halogenoindan-1-one solution may, if appropriate, contain water. For example, based on the solvent, up to 30% by weight of water may be present. This amount is preferably from 2 to 10% by weight.
The process according to the invention can, if appropriate, be carried out with addition of acids to control the pH. At a high pH, there is the risk that, in addition to the exchange of halogen for cyano, an elimination of hydrogen halide takes place. Accordingly, it is advantageous to control the pH, if appropriate, by addition of a strong acid, and to keep it, for example, in the range from 4 to 11, preferably from 5 to 10. Excessive acidification should be avoided, since this leads to the formation of hydrogen cyanide from the cyanide salt.
The acid can be added to the reaction mixture for example as such, but also, for example, together with the 2-halogenoindan-1-one or its solution.
Suitable acids are, in particular, aqueous acids of medium to high strength, such as aqueous hydrochloric acid, hydrobromic acid, sulfuric acid, phosphoric acid, formic acid and acetic acid.
The process according to the invention can be carried out, for example, at temperatures in the range from 10 to 70° C. Preference is given to temperatures in the range from 20 to 60° C.
The reaction mixture that is present after the process according to the invention has been carried out can be worked up, for example, in that it is cooled, any solvents present are stripped off under reduced pressure, the crystal slurry that remains is mixed with water and acidified slightly and the solid which is then present is filtered off and washed with water. If appropriate, the resulting 2-cyanoindan-1-one of the formula (I) can be purified further, for example by recrystallization from an organic solvent.
Using the process according to the invention, it is possible to obtain 2-cyanoindan-1-ones of the formula (I) in surprisingly high yields of 95% and more, employing considerably lower amounts of cyanide than in the prior-art process.


REFERENCES:
patent: 2715137 (1955-08-01), Copelin
patent: 4705782 (1987-11-01), Logan et al.
patent: 95/29171 (1995-11-01), None
patent: 96/20151 (1996-07-01), None
Journal of the American Chemical Society, vol. 67, Jul.-Dec. 1945, pp. 1745-1754 (see page 1751) Johnson et al, A Plan for distinguishing between Some Five-and Six-membered Ring Ketones.

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