Process for producing o-methallylhydroxyphenol

专利摘要:
The process relates to the preparation of o-methallyloxyphenol by the action of methallyl chloride on pyrocatechol in the presence of a basic agent. It consists in carrying out the reaction in a two-phase liquid reaction medium comprising water and a water-immiscible organic solvent, at a temperature between 50 DEG and 140 DEG C., in the presence of a catalyst chosen from amongst quaternary ammonium derivatives and phosphonium derivatives, using, as the basic agent, an alkali metal or alkaline earth metal hydroxide or an alkali metal carbonate or bicarbonate. It makes it possible to obtain the monoether selectively by minimizing the formation of diether and of alkylation products of the benzene nucleus of the pyrocatechol.
公开号:SU952102A3
申请号:SU792782748
申请日:1979-06-25
公开日:1982-08-15
发明作者:Ракуц Мишель
申请人:Рон-Пуленк Агрошими (Фирма)；
IPC主号:

专利说明:

The invention relates to methods for producing o-metalloxyphenol, which finds use in the synthesis of 2,3-dihydro-2,2-dimethyl-7-benzofuranyl used as the insecticide of methylcarbamate. A method of producing o-metalloxyphenol is known, which consists in the interaction of pyrocatechol with metal chloride in an amide solvent (dimethylformamide, dimethyl acetamide, dimethyl sulfoxide) at 100-120 ° C in the presence of a basic agent, an oxide, or an alkaline earth metal hydroxide. its implementation on an industrial scale is limited because it involves very specific solvents that are either toxic or expensive or explosive (dimethyl sulfoxide) in the presence of methane llilchloride. The closest to the present invention is a method for the preparation of o-metal oxyphenol, consisting in the interaction of pyrocatechin with metal chloride with stirring and a temperature of 70-75 ° C in a two-phase system: water - benzene in the presence of sodium hydroxide. The disadvantage of the known method is that the side reaction takes place — the alkylation of the cycle, as well as the formation of diesters, which reduces the yield of the target product and leads to a mixture of difficult to separate products. The purpose of the invention is to increase the selectivity of the process. The goal is achieved by the fact that an o-metalloxyphenol of the formula -OCHg-C a1g / is obtained by reacting with. stirring pyrocatechol with metal in the presence of a basic agent and a catalyst of a quaternary ammonium derivative of the general formula where R is alkyl, hydroxyethyl; Rii is hydroxyethyl alkyl; RgH R. have the same or different values and each represents an alkyl halogen, in addition to iodine, the radicals S04, S04H; n is an integer equal to the valence X, at a temperature of 70-130 C. A distinctive feature of the proposed method is the use of the Ine as an organic solvent not miscible with water, derived from the group: lower aliphatic unsaturated monoketones, lower aliphatic saturated mononitriles, halogenated hydrocarbons, saturated aliphatic Cd hydrocarbons, saturated monatomic aliphatic alcohols, saturated simple aliphatic or aromatic series, carrying out the process in the presence of a catalyst - roi aqueous quaternary ammonium general formula R, - - Cg-V e where R - sshkil, hydroxyethyl; RQ is alkyl CiJ-C, OXYETHYL} RJ and has the same or different meanings, and each is C 2 C alkyl, X is alkyl, except iodine, SQ radicals, 564 H; n is an integer equal to valency X, at a temperature of 70-130 C. Preferably, the process is carried on, and the benefit is 0.6-2 mol of methyl chloride and 0.5-1.4 mol of the basic agent per 1 mol of pyrocatechin and 0.01-1 1 mole of the basic agent, for which sodium hydroxide or sodium carbonate is used. According to the proposed method, the process can be conducted in metallic chloride, then the latter performs the role of a solvent. Anisole is better used as an auxiliary inertial solvent. In a reaction medium, the ratio between water and organic solvents may vary widely. However, the best results are obtained when using a reaction medium containing 1-4 vol.h, an organic solvent per 1 part of water. The main agent can be added to the reaction medium at one time at the beginning of the reaction, or it is added gradually throughout the process, which allows better control of the reaction, which lasts 2-6 hours. As a catalyst, derivatives of the quaternary base Along with individual compounds, a mixture of methyltrialkylammonium chlorides can be used, in which alkyl contains 8-10 carbon atoms (A / d464) or a mixture of dioxyethyl dialkylammonium chlorides, in which alkyl contains 1 6-18 carbon atoms (Kemülkat K012). The proposed method allows to selectively obtain a monoester, minimizing the formation of diesters and alkylation products of the pyrocatechin benzene ring. The monoester / diester molar ratio is 16: 103, the degree of pyrocatechol conversion is 43-89%, the yield of the target product on the pyrocatechin converted is 66-82%, and that of the initial 33-56%. Example 1 The apparatus used contains a 250-ml three-neck flask equipped with a vertical condenser, stirrer, thermometer, inlet, and argon output. After purging the apparatus with argon, 12.1 g of pyrocatechin (mol), 70 ml of anisole, 13.5 g of metal chloride (0.15 mol), 5.68 g of tetrabutylammonium bisulfate (0.016 mol), 0.7 g of sodium oxide ( 0,017 mol). The mixture is heated to 100 ° C with stirring under an argon atmosphere. Then 4 g of sodium oxide in a solution of 20 ml of water are added over 2 hours. By. at the end of the infusion, the tube through which the solution is fed is washed with 5 ml of distilled water. The mixture is kept for another 2 hours at boiling, after which it is stirred and cooled to ambient temperature. The vapor phase is chromatographed and it is determined that 3.7 g of unconverted metal chloride is contained in the organic phase. 70 ml of distilled water are added to the liquid reaction mixture and two layers are obtained. The aqueous phase is extracted five times with 60 ml of ethyl acetate. The organic phases are combined. By chromatography of the aqueous phase, the presence of 2.0 g of unconverted pyrocatechin and 0.70 g of o-dimethylyloxybenzene is determined. By liquid chromatography, the organic phase contains 12.3 go-methyl-oxyphenol (0.075 mol), 1.2 g of n-metallic pyrocatechin, 0.13 g of o-metallic pyrophenyl catechin.
Based on these data, pyrocatechol conversion is 84%.
Yield with respect to the converted pyrocatechin,%: o-metalloxyphenol 82J o-dimetallyloxybenzene 3,6-p-metal pyrocatechin 3 o-metal pyrocatechin 0.8. The monoester / diester molar ratio is 22, the yield of monoether relative to the starting pyrocatechin is 69%.
Example 2. In the described apparatus load 35 ml of anisole, 8.25 g of pyrocatechin (0.075 mol), 10 g of metal chloride (0.11 mol), 2.85 g of tributylethylammonium chloride (0.011 mol).
The mixture is heated to with stirring under argon. Then, a solution of sodium hydroxide containing 2 g of NaOH (0.95 mol) in 5.5 ml of distilled water is introduced over 2 hours and 25 minutes. At the end of the administration of this solution, the mixture is kept under the indicated conditions for 1 hour and 15 minutes. After this time, the aqueous phase has a neutral reaction. The stirring and heating are stopped and the mixture is left to cool in argon atmosphere. The sodium chloride which has precipitated out is filtered and washed three times with 15 ml of anisole. The filtrates are combined and decanted. To the aqueous phase add
115 ml of distilled water and filtered sodium chloride. In this solution, 0.048 yon-g C1 and | 1.8 Yu-ion-g (C2.H5) (C4H9bN) are determined. In the organic phase, which is 83 ml, 0.010 ion-g tfe and 0.010 ion-g ( ) (C4H9) h.
Tributyl methyl ammonium chloride contained in the organic phase can be removed by washing with water. To do this, take 10 MP of the organic phase, which is washed once in the same volume of distilled water. After decanting, the organic phase is determined, g: o-metalloxyphenol 6.8; o-dimetalyloxybenzene 0.052 o-metalpyrocatechin 0.16; p-metalloxypyrocatechin l, 07f pyrocatechin 2.43} 0.34-10 ion g CE
In the aqueous phase, 0.11 g of pyrocatechin and 0.88 X-ion 0.11 g are determined.
As a result, the conversion of pyrocatechol is 69%. Output relative to the transformed pyrocatechin,%: o-metalloxyphenol 77; o-dimetalyloxybenzene, 0.4 o-metalpyrocatechin 2, i.e. the molar ratio mono-ef, ir / diester is 192. The yield of mono-ether relative to the starting pyrocatechin is 53%.
Examples 3-16. These examples are carried out analogously to example 1. However, in example 4, the reaction is carried out in a pressure autoclave. The conditions of the processes and the results obtained are given in Table. 1, 2 and 3.
952102
ten
table 2
Duration, h-min
4-25
5-15
3-40
4-35
20
The results obtained under the conditions specified in Table. 3
The degree of conversion of pyrocatechol,%
Output in relation to the transformed pyrocatechin,%
Monoether
Diester

权利要求:
Claims (1)
[1]
OUTPUT of the monoester with respect to the starting pyrocatechol,% Claim of the invention. Method of producing o-metalloxyphenol of the formula OH CK, V-OCH -CeQli t. the interaction of pyrocatechol with metal chloride by mixing in a two-phase system: water is an organic solvent which is not miscible with water in the presence of a basic agent when heated, characterized in that, to increase the selectivity of the process, lower aliphatic saturated monoketones are used as water miscible with a solvent , lower aliphatic saturated mononitriles, halohydrocarbons, saturated aliphatic hydrocarbons saturated monatomic aliphatic
Table 4
Example,
.
89.6 43 7370
65 77 7780
21 1 910
58.2 33 5656 alcohols, saturated. ethers of an aliphatic or aromatic series; n the process is carried out in the presence of a catalyst-derivative of quaternary ammonium of the general formula g - K, where R is alkyl Cx, -C4, hydroxyethyl; RI is alkyl C, oxistil; R3 and R4 have the same or different values, and each represents an alkyl X — halogen, except iodine, the radicals n — an integer equal to the valence of X, at a temperature of 7–1 sec. Sources of information taken into account in the examination 1. US patent 3,927,118, cl. 260-613, published. 1975 (prototype)

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法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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FR7819826A|FR2434134B1|1978-06-26|1978-06-26|

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