DE675881C - Process for the preparation of amides of thioformic acid - Google Patents

Description

Process for the preparation of amides of thioformic acid thioformylamides have hitherto been obtained by the action of hydrogen sulfide on isonitrile ioder from phosphorus pentasulphide to amides of formic acid. These procedures are cumbersome and usually deliver the product in poor yield and in a form that is difficult to clean. Also, these procedures, especially the second, are slightly changing Substances, not applicable.

It has now been found that one can in a simple and gentle manner can reach thioformylamides in mostly excellent yield if difhioformic acid or lets its salts act on ammonia or amines. -Implementation is ongoing under very mild conditions and leads to the goal even if further easily convertible groups are contained in the amiine to be converted. After the claimed Process can be z. B. @ o-phenylenediamine convert into the manothioformyl compound, although the second amino group is not only also thioformylated, but could also give rise to benzimidazole formation. There is also a big one in that The advantage of the new method is that it is capable of general application. Both aliphatic, hydroaromatic and aromatic amines behave towards dithioformic acid and their salts: amines of heterocyclic ring systems are no exception.

To carry out the reaction, the amine is brought together in its suitable solvent with dithioformic acid, after which in most cases. the implementation already takes place at normal temperature. It goes without saying that salts of amine and alkali salts of dithioformic acid can also be used with the same effect; It is surprising, however, that the free base also reacts with alkali dithio.formic acid to give the corresponding thioformylamide. The compounds obtained by the process are intermediates for the production of medicaments, in particular those from the thiazole and thiazolium series. EXAMPLE i 93 parts by weight of aniline are dissolved in alcohol in zoo parts by weight and a solution of 120 parts by weight of potassium dithioformate in 240 parts by weight of water is added at -io °. After a short time, the sparingly soluble thioformanilide begins to separate and is quantitative after about z hours. The melting point of the crude product is 137o.

If, for example, aniline is used instead of 93 parts by weight 123 parts by weight of p-anisidine, the reaction proceeds in the same way. The thioformyl anisidide crystallizes from alcohol in narrow prisms with a melting point of 128 °.

EXAMPLE 2 A concentrated aqueous solution, prepared from 10 8 parts by weight of o-phenylenediamine, is gradually admixed at 0 ° with a solution of 10 parts by weight of potassium dithioformate dissolved in zoo parts by weight of water. After standing at 0 ° for 12 hours, it is filtered off with suction and washed with water. The moniothioformyl-o-phenylenediamine formed melts freshly prepared at 77 ° with decomposition. It transforms when stored at room temperature. in a short time with elimination of hydrogen sulfide in benzimidazole. EXAMPLE 3 A solution of 151 parts by weight of monoacetyl- @ o-phenylenediamine in 500 parts by weight of water is mixed at + 10 ° with a solution of 140 parts by weight of potassium dithioformate in 300 parts by weight of water. In the course of 12 hours, at the same temperature, thiofiormylacetyl-o-phenylenedi, amine separates in an almost theoretical amount. Melting point 173 °. EXAMPLE 4 78 parts by weight of dithioformic acid are poured over 400 parts by weight of ethyl ether and, at 0 °, 120 parts by weight of 25 parts by weight of aqueous ammonia are added. The addition takes place with thorough stirring. Then it is left to stand for 2 days and then the ethereal layer is lifted off and the watery part is repeatedly extracted with ether. The combined extracts are dried sharply over phosphorus pentoxide. The ethereal solution is then concentrated to about 160 parts by weight, cooled to -15 ° and the thioformamide is deposited in solid form by: Gradual addition of petroleum ether. Yield 50% of theory. EXAMPLE 5 An approximately zoo / o solution of ethyl amine in ether, which contains 45 parts by weight of ethylamine, is mixed with 78 parts by weight of dithioformic acid at 0 °. The mixture is then left to stand for 24 hours at ordinary temperature, the solvent is then distilled off and the residue is distilled in an air-diluted room. The ethylthioformamide boils under iomm pressure at 25 °. EXAMPLE 6 78 parts by weight of ethylenediamine hydrate are dissolved in 500 parts by weight of water and a solution of 180 parts by weight of potassium dithioformate in 500 parts by weight of water is added while stirring at + 5 ° to -50 °. After standing for 12 hours, the ethylene-bis-thioformylamide is deposited. For cleaning, the lye is separated and recrystallized from dilute alcohol; then the melting point of the product is 146 to 1q.7 °. Example 7 123 parts by weight of i-phenyl-2,3-dimethyl-4-amino-5-pyrazolone are dissolved in 1,000 parts by weight of water and a solution of 140 parts by weight of potassium dithioformate in 300 parts by weight of water is added. The i-phenyl-2,3-dimethyl-4-thioformylamino-5-pyrazolone separates out in small, yellowish crystals after a few minutes. After 12 hours, the crystals are separated from the liquid and washed with water. The compound melts at 175 °. Example 8 21 parts by weight of 2-methyl-4-oxy-5-alinomethylpyrimidine hydrochloride are dissolved in 200 parts by weight of water, 2o parts by weight of potassium carbonate are added and your solution of 15 parts by weight of potassium dithioformate in 5o parts by weight of water is added at + 10 °. The aqueous solution is now saturated with carbon dioxide and left to stand for 24 hours. The 2-methyl-4-oxy-5-thiioformylami, nomethylpyrimidine gradually crystallizes out. It can be recrystallized from water. The compound forms colorless crystals with a melting point of 199 ° to 200 °. EXAMPLE 9 211 parts by weight of 2-M ethyl-4-amino-5-ami.rnom@eth'ylpyrimidindichlorhydrat (Zeitschrift für Physiologische Chemie, Vol. 242 [1936], p.95) are dissolved in 1,600 parts by weight of water and neutralized by adding while stirring from 75o parts by weight of its potassium carbonate solution, which contains 138 parts by weight of K2 C03. 16 parts by weight of potassium dithioformate are then added, with continued stirring. The reaction mixture is heated to 50 ° to 55 °. A clear solution emerges temporarily, after which the agitator is switched off. After a few minutes, the 2-methyl-q .-; amino-5-thioformylaminomethylpyrimidine begins to separate out, and the reaction has ended after 1 hour. It is cooled and filtered. For cleaning, the still moist raw material can be dissolved in 25% acetic acid and, after the initial coloring, precipitated with ammonia. 2-M ethyl-5-amino ¢ thioformylami: nomethylpyrimidin forms colorless crystals of melting point 89 to 1 i 9o °, which, in organic solvents also are very hard water in only slightly soluble; however, they are easily dissolved by dilute acids and strong alkalis.

Claims (1)

PATENT CLAIM: Process for the preparation of amides of thioformic acid, characterized in that dithio, formic acid or their salts are allowed to act on ammonia or amines using a solvent.