DE1145615B - Process for the preparation of trithiophosphonic acid esters - Google Patents

Description

Process for the preparation of trithiophosphonic acid esters Trithiophosphonic acid esters of the general composition have not yet been described in the literature.

In the above formula, R stands for an alkyl, cycloalkyl, aralkyl or aryl radical, R1 denotes one which is optionally substituted by the ethyl mercapto group Alkyl or an alkyl radical, and R2 represents one optionally through the ethyl mercapto group substituted alkyl, which, however, is different from R1.

It has now been found that the compounds mentioned are obtained very easily if one uses dithiophosphonic anhydrides of the general formula Adds mercaptans of the formula R1SH and then the resulting trithiophosphonic acid monoesters of the general formula further reacted with alkyl halides of the formula R2 - X. The process according to the invention is explained in more detail using the following reaction scheme: In the above equations, the radicals R, R1 and R2 have the meaning given above, while X stands for chlorine, bromine or iodine.

The preparation of the starting materials for the invention Process serving dithiophosphonic anhydrides and their reaction with mercaptans is already described in German patent specification 1 009 628.

Furthermore, according to the information in US Pat. No. 2,847,458, aryldithiophosphonic acid anhydrides are used as intermediates for the production of corresponding thiophosphonic acid esters with insecticides Effectiveness suitable.

The trithiophosphonic acid esters obtainable according to the process, however, are distinguished from known, analogously constructed compounds which can be used for the same purpose by a considerably better effect when used as a pesticide and a significantly lower toxicity to warm-blooded animals. This clear superiority of the process products can be seen from the following comparative tests: The inventive methyl trithiophosphonic acid - S - ethyl - S - (- ethylmercaptoethyl) - and methyltrithiophosphonic acid S-ethyl-S-phenyl ester (compounds 1 and 3) with the corresponding previously known O-ethyl esters 2 and 4 with regard to the effectiveness against aphids and spider mites as well as the toxicity to warm blooded animals. The test results can be seen in the following table: Warmb! Üter killing of active ingredients toxicity An dung constitution (I) Lbo rat application of concen- trative remarks No per os in against tration damage mg / kg) in 0 / o in OIo 1 PS-CH, -CH, -SC, H, - aphids 0.001 100 ovicidal Spider mites 0.001 100 effect (according to the invention, example 1) 2 CH3 / P5S-CH2-CH2-SC2H5 - aphids 0.1 90 no ovicidal C2H5O spider mites 0.01 100 effect (known) 5 CH 3 P - 5 100 aphids 0.01 100 ovicidal QH5S '\ / spider mites 0.01 100 effect (according to the invention, example 2) 5 CH2 \ 4, PS 5 aphids 0.01 30 no ovicidal C2HsO ~ - ~ spider mites 0.1 90 effect (known) The above test results show that process products 1 and 3 have a 100% killing effect on the pests mentioned, even when used in concentrations that are 1 to 2 powers of ten lower than the analogous, known reference substances. In addition, in contrast to the comparative preparations, the trithiophosphonic acid esters according to the invention are distinguished by a pronounced ovicidal effect.

On the other hand, the methyl thionophosphonic acid S-ethyl-S-phenyl ester which can be prepared according to the process has been found (Compound 3) with a mean warm-blooded toxicity of only 100 mg / kg rat per os is considered to be considerably less toxic to warm-blooded animals than the well-known analogue ones Compound 4 (DLso rat per os 5 mg / kg animal), d. H. the process product is despite its superior insecticidal effectiveness compared to the comparator product Composition around 20 times less toxic to warm-blooded animals.

The compounds according to the invention are used as pesticides mainly used in crop protection.

The following examples may explain the claimed method in more detail: Example 1 27.5 g (0.25 mol) of methyl dithiophosphonic anhydride are suspended in 200 ml of benzene. 25 g of ethyl mercaptan are added at 40 ° C. while stirring.

The mixture is left to stir for 2 hours and then the solvent is removed by carefully distilling off in vacuo. The residue is dissolved in 100 ml of acetonitrile recorded. A sodium methylate solution is then added at 20.degree. C. with further stirring added, which contains 0.25 mol of sodium dissolved. Then it is added at 40 ° C Stir 42g of ß-bromoethylthtoethylether. It is held at 90 ° C. for a further hour then gives the reaction product in 200 ml of ice water. The excreted Ö1 is with 150 ml of benzene added. The benzene solution is separated off, neutral with water washed and then dried with sodium sulfate. Receives when fractionating 45 g of the new ester with a boiling point of 0.01 = 89 ° C.

Yield 69% of theory. The ester is a colorless, water-insoluble one Ö1.

DL50 rat orally 2.5 mg / kg.

Calculated for mole 260. . S49.4%, P 12,000 / o; found . .. S48f9 ° / oX P12.9%

Example 2 25 g (0.2 mol) of methyl dithiophosphonic anhydride are suspended in 100 ml of benzene. At 60 ° C., 24 g of phenyl mercaptan are added with stirring. The mixture is heated to 60 ° C. for 1 hour and then kX down to room temperature. Then a sodium methylate solution containing 0.2 mol of sodium in dissolved form is added at 20 ° C. 31 g of ethyl iodide are then added dropwise with further stirring at 40 ° C. The mixture is heated to 40 to 500 ° C. for a further hour and then added the reaction product in 200 ml of ice water The oil which has separated out is taken up in 100 ml of benzene and worked up as in Example 1. In this way, 27 g of the new ester with a boiling point of 0.01 = 1080 ° C. are obtained.

Yield 54% of theory. The ester is a colorless, water-insoluble one Ö1.

DLso rat orally 100 mg / kg.

Calculated for moles 248 ... S 38.60 / o, P 12.5%; found . S 37.8 0 / o, P 11.7 0 / o, example 3 25 g (0.2 mol) of methyl dithiophosphonic anhydride are suspended in 100 ml of benzene. At 60 "C., 24 g of phenyhnercaptan are added with stirring. The mixture is heated to 60" C. for 1 hour and then cooled to room temperature. A sodium methylate solution containing 0.2 mol of sodium in dissolved form is then added at room temperature.

34 g of p-bromoethylthioethyl ether are then added with continued stirring added. It is kept at 50 ° C. for 1 hour and the reaction product is then poured into 200 m of ice water. The oil which has separated out is taken up in 150 ml of benzene and worked up as in Example 1. In this way, 47 g of the new ester are obtained as a yellow, water-insoluble oil. Yield 76% of theory.

Calculated for moles 308 ... 5 40.50 / o, P 10.1 0 / o; found . . ... 5 39.4 0 / o, P 9.30 / 0.

Example 4a 124 g (1 mol) of ethyl dithiophosphonic acid anhydride (melting point 1410 C) are suspended in 400 cc of benzene.

110 g of thiophenol are added to this suspension while stirring and the reaction mixture is then heated to 60 ° C. for 1 hour, the Ethyl dithiophosphonic anhydride gradually goes into solution. After that, the benzene carefully distilled off in vacuo. 228 g (97% of theory) are left behind Ethyl thionodithiolphosphonic acid S-phenyl ester in the form of a water-insoluble, non-distillable oil.

Example 4b A methanolic sodium methylate solution containing 0.25 mol of sodium in dissolved form is added at 20 ° C. to a solution of 59 g (0.25 mol) of S-phenyl ethyl thionodithiolphosphonic acid in 100 ml of acetonitrile.

The reaction mixture is then added dropwise at 25 ° C. with 28 g of chloromethylthioethyl ether are added, the mixture is then stirred for a further 1 hour at 30 ° C. and then worked up as described in the previous examples. You get 55g (71 0 / o of theory) of the ethyl thionodithiolphosphonic acid S-phenyl-S- (ethylmercaptomethyl) ester in the form of a pale yellow, water-insoluble oil.

Analysis for a molecular weight of 308: Calculated ... 41.60 / o, P 10.00 / o; found . . S40.60 / ,, P 9.80 / o.

Example 5 59 g (0.25 mol) of the ethyl thionodithiolphosphonic acid 5-phenyl ester prepared according to Example 4a are dissolved in 100 ml of acetonitrile. A methanolic sodium methylate solution containing 0.25 mol of sodium is added to this solution at 200 ° C. and 45 g of ethyl iodide are then added dropwise to the mixture with vigorous stirring at 40 ° C. To complete the reaction, the mixture is increased to 50% for a further 1 hour "C heated and then poured into 300 ml of ice water. The oil which has separated out is taken up in 300 ml of benzene, the benzene solution is washed with water and finally dried. In the subsequent fractional distillation, after evaporation of the solvent, 30 g (46 ° / c of theory) of the ethyl-thionodithiolphosphonic acid-5-ethyl-S-phenyl ester are obtained in the form of a colorless, water-insoluble oil with a boiling point of 0.08 ° C .

Claims (1)

PATENT CLAIM: Process for the preparation of trithiophosphonic acid esters, characterized in that dithiophosphonic acid anhydrides of the general formula are used in a manner known per se in which R is an alkyl, cycloalkyl, aryl or aralkyl radical, mercaptans of the general formula R1SH, in which R1 is an alkyl or an aryl radical optionally substituted by the ethyl mercapto group, are added and the resulting trithiophosphonic acid monoesters of the general formula in which R and R1 have the abovementioned meaning, then with alkyl halides of the formula R2-X, in which R2 is an alkyl radical which is optionally substituted by the ethyl mercapto group, but which is different from R1 and X is chlorine, bromine or iodine, to form compounds the general formula in which R, R1 and R2 are as defined above. Considered publications: German patent specifications No. 1 009 628, 1 032247; U.S. Patent No. 2,665,294 2,847,458.