DE2131366C3 - Process for the preparation of Benzoxazolonen- (2) and Benzthiazolonen- (2) - Google Patents

Description

NH ₁

XH

(H)

in which R and X have the meanings given above, characterized with urea in the presence of acids, characterized in that one carries out the condensation in aqueous solution at temperatures from 20 to 160 ⁰ C to obtain by addition of Säuic the pH below 7 holds and works at temperatures above the boiling point in a pressure vessel.

2. The method according to claim 1, characterized in that the molar ratio of o-aminophenol or o-aminothiopheno! to urea is about 1: 1.5 to 1: 3.

3. The method according to claim 1 to 2, characterized in that the reaction between 100 and 130 ° C takes place.

1–3 C atoms or an alkoxy group with 1–3 C atoms means by reaction of compounds of the general formula II

in which X is an oxygen or sulfur atom and R is a hydrogen or halogen atom, an alkyl group with 1 to 3 carbon atoms or an alkoxy group with 1 to 3 carbon atoms means by reaction of compounds of the general formula II

NH

C - = O

(D

where X is an oxygen or sulfur atom and R is a hydrogen or halogen atom, an alkyl group with

15th

.VS

40

From Canadian Journal of Research, 26 (1958), Section B, page 432, it is known to heat o-aminophenol, urea and hydrochloric acid in an open glass beaker to 140 ° C and then about to heat for one hour at temperatures up to 160 ⁰ C. Since the water evaporates as much as possible when it is heated, condensation takes place here in the melt.

The reaction of o-aminophenols either with phosgene or in a urea melt is multiple has been described in the literature, for example in J. Amer. Chem. Soc, 75 (1953), 2770 and 80 (1958), 1662. A review can be found in Journal of Pharmaceutical Sciences, 58 (1969), 1043.

The invention relates to a process for the preparation of Benzoxazolonen- (2) and Benzthiazolonen- (2) of the general formula I.

60 ■ <x

NH,

(II)

XH

in which R and X have the meanings given above, with urea in the presence of acids, which is characterized in that one carries out the condensation in aqueous solution at temperatures from 20 to 160 ⁰ C to obtain by addition of acid the pH below 7 and works at temperatures above the boiling point in a pressure vessel

In preferred starting materials of the formula (I), R stands for a chlorine or bromine atom, a methyl or Methoxy group.

The reaction conditions with regard to the temperature, the concentration and the molar ratio of the two reactants can be varied within relatively wide limits. It is preferred to work at temperatures between 100 and 130 ^° C. in order to obtain a high space-time yield.

The main acids are sulfuric acid, hydrochloric acid, phosphoric acid or hydrobromic acid in question.

The concentration of the o-aminophenol or o-aminothiophenol of the general formula II and urea in water can be varied within wide limits. The upper limit is given by the stirrability of the resulting suspension while after below only lowers the concentration of the reactants to such an extent that the benzoxazolone (2) or Benzthiazolone- (2) still precipitates and does not remain in solution. In general, it affects an increase in Concentrations of the two reactants have a beneficial effect on the yield. Otherwise depends on the optimal Concentration of the reactants largely depends on the nature of the substituent R on the o-aminophenol or o-aminothiophenol.

The urea is expediently used in excess, preferably in a ratio of 1.5-3 mol per mole, since it shows some decomposability under the reaction conditions.

Compared to the previously known process for the preparation of Benzoxazolon- (2) for example by reaction of o-aminophenol with phosgene in a solvent or by reaction with excess Urea in the melt, the method according to the invention is characterized in that the Yields are sometimes higher, the use of toxic and corrosive gases is avoided and Side reactions, such as the formation of biuret, only take place in traces. In addition, the reaction products are so pure that they no longer have to be reprecipitated or recrystallized. Compared to Urea melting process can reduce the excess of urea in the process according to the invention being held.

The process of the invention allows, for example, instead of solid o-aminophenol, aqueous To use solutions thereof, such as those formed, for example, in the hydrogenation of o-nitrophenol.

The Benzoxazolone- (2) or Benzthiazo-

lone- (2) are valuable intermediates for pharmaceuticals, for example analgesics, hypnotics, antipyretics and especially for dyes, such as for example Azo dyes, the diazo component 4-0-sulfatoethyl-sulfonyl-2-hydroxyaniline included (German patents 11 26 542 and 11 53 029).

example 1

53 parts by weight of sulfuric acid monohydrate are added to a mixture of 109 parts by weight of o-aminophenol and 72 parts by volume of water with stirring. From a dropping funnel, 26.5 parts by volume of sulfuric acid monohydrate are then added dropwise at 115 ° C. over a period of 3.5 hours in such a way that the pH of the solution is kept at about 2-3. After completion of the addition of sulfuric acid is allowed to react for so long, has dropped to 3-4 until the pH value of the suspension, then 1,000 volumes of water to the reaction mass and heated up to complete solution of the crystals at 100 ° C Then the mixture is cooled to Room temperature, sucks off the precipitated benzoxozolone- (2) and washes it with a little cold water. 130 parts by weight of benzoxazolone- (2) with a melting point of 139-14O ° C. are obtained. The yield, based on the o-aminophenol used, is 96.5% of theory.

Example 2

250 parts by volume of concentrated hydrochloric acid are placed in an autoclave and 143 is carried Parts by weight of 4-chloro-2-aminophencl and 180 parts by weight of urea. After closing the Pressure hull, the remaining air is displaced by passing nitrogen overhead from one hour to 125 ° C., holds at this temperature for another half an hour and then cools to room temperature. The precipitated Kxistallbrei is introduced into 1500 parts by volume of water, the suspension Set pH 5-6 and set to 100 "C for one hour heated. After cooling, the residue is filtered off with suction and washed. 154 parts by weight of 5-chlorobenzoxazolone with a melting point of 189 ° C. The yield, based on the 4-chloraminophenol used, is 91% of theory.

Example 3

150 parts by volume of water, 127 parts by weight of o-aminophenol, 55 parts by volume of sulfuric acid monohydrate and 120 parts by weight of urea are introduced into an autoclave. The pressure hull is closed and the remaining air is displaced by passing nitrogen over it. Thereafter, the mixture is heated with stirring in the course of one hour at 125 ⁰ C. Upon reaching this temperature, via a metering valve in the course of half an hour or 53 parts by volume of sulfuric acid and after the addition has ended in 1000 parts by volume of water. It is then cooled to room temperature, the suspension is adjusted to pH 5-6 and the residue is filtered off and washed. 144 parts by weight of benzothiazolone- (2) with a melting point of 136 ° C. are obtained. The yield, based on the o-aminothiophenol used, is 94% of theory.

The table shows further compounds, which are prepared in the same manner given above became.

Aminophenol used
of the general formula I.

Product received yield Melting point (%) (X) 6-chloro-benzoxazolone- (2) 89 196 5-methyl-benzoxazolone- (2) 94 130 7-methyl-benzoxazolone- (2) 90 120 6-bromo-benzoxazolone- (2) 87 191 5-bromo-benzoxazolone- (2) 85 215 5-methyl-benzthiazolone- (2) 92 168-169 5-chloro-benzothiazolone- (2) 92 218 4-methoxy-benzoxazolone- (2) 90 194 5-methoxy-benzoxazolone- (2) 87 169-170 6-methoxy-benzoxazolone- (2) 90 151 7-methoxy-benzoxazolone- (2) 90 148 4-chloro-benzothiazolone- (2) 89 204 6-methoxy-benzothiazolone- (2) 87 163

5-chloro-2-aminophenol

4-methyl-2-aminophenol

6-methyl-2-aminophenol

5-bromo-2-aminophenol

4-bromo-2-aminophenol

4-methyl-2-aminothiophenol

4-chloro-2-aminothiophenol

3-M ethoxy-2-aminophenol

4-methoxy-2-aminophenol

5-methoxy-2-aminophenol

6-methoxy-2-aminophenol

3-chloro-2-aminothiophenol

5-M ethoxy-2-aminothiophenol

Claims (1)

Patent claims: 1. Process for the preparation of Benzoxazolonen- (2) and Benzthiazolonen- (2) the general Formula I. c = o (D