The invention relates to a process for the racemisation of optically-active amines, e.g. 1- arylalkyla ines.

Background of the Invention

Optically pure amines are useful as industrial chemicals and as intermediates for agrochemicals and pharmaceuticals. They are frequently obtained conveniently by chemical resolution through salt formation at the amine function. Alternatively, enzymatic resolution of the racemate can be applied. Either way, the method separates the two enantiomers, only one of which is generally desired. In order to obtain an economic overall process, it then becomes desirable to effect racemisation of the undesired enantiomer, so that it can be recycled back into the resolution.

DE-A-2851039 discloses the racemisation of 1- arylalkylamines using a metal catalyst, for example hydrogen and Raney cobalt. JP-A-1471389 discloses the use of a catalyst comprising alkali metals and polyaromatic hydrocarbons. DE-A-2442854 discloses the use of a catalyst prepared from sodium or potassium or their hydroxides on alumina. Racemisation of 1-arylalkylamines by treatment with alkali metal or alkaline earth metal alkoxides in dimethyl sulfoxide at 0-200°C is also known; see US-A- 5183939.

Limitations of the available methods are the costs of the catalyst/reagents for a recycling process, and the sometimes vigorous conditions, leading to the formation of side products. Summary of the Invention

The present invention is based on the surprising discovery that optically-active amines R ¹ .CH(NR R ⁴ ) .R ² may be racemised simply and cleanly by treatment with a metal hydroxide in an aprotic polar solvent such as dimethyl sulfoxide. In this amine, R represents an aromatic,

3 -> alkenyl or alkynyl residue, R and R are independently hydrogen or an alkyl or aryl residue, and R is an alkyl residue that may optionally have additional substitution such as hydroxyl group. The groups on the nitrogen, i.e.

3 4 R and R , optionally may form one or more rings with the groups R and/or R . Description of the Invention

Metal hydroxides used in the novel process are of alkali metals or alkaline earth metals, and preferably sodium or potassium hydroxide.

In general, relative to 1 mol of substrate amine, between 0.01 and 5 mol, but preferably not more than 0.2 mol of hydroxide in between 1 and 20 mol of dimethyl sulfoxide, but preferably less than 10 mol, are employed at temperatures between 40-180°C, but preferably at less than 100°C, with reaction times in the range 1-48 h. After racemisation has occurred, the amine may be isolated using normal work-up procedures.

This procedure is advantageous over the prior art since metal hydroxides, particularly potassium hydroxide and sodium hydroxide, are cheaper, are more widely available, and/or more easily stored than the catalysts/reagents described in the prior art.

The following Example illustrates the invention. Example

Solid, powdered potassium hydroxide (4.6 mg, 8.2 x 10 mol) and (J?) -1-phenylethylamine (98% ee) (1.00 g, 8.25 x 10 mol) are mixed with dimethyl sulfoxide (5 ml, 0.07 mol) , and the mixture is heated to 80°C and kept at this temperature for 16 h. The mixture is then cooled and diluted with water (5 ml) , and the amine is extracted into ether (2 x 10 ml) . The combined organic layers are washed with brine, dried over MgS0 ₄ , filtered and concentrated to give 0.85 g (85%) of substantially racemic 1- phenylethylamine; purity >96% by ¹ HNMR, ratio (S) : (R) recovered by HPLC with chiral column as 1:1.