CATALYSIS BY PHOSPHORUS AND SILICON COMPOUNDS IN THE SYNTHESIS OF OXYNAPHTOIC ACID ANILIDES

Leon Shteinberg
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Abstract

Catalysis of the acylation of aniline with 3-­hydroxy-2-naphthoic, 1-hydroxy-2-naphthoic, 2-hydroxy-1-naphthoic and 1-hydroxy-4-naphthoic acids by phosphorus P(III) and silicon Si(IV) compounds leads to the formation anilides of the corresponding hydroxy­naphthoic acids under mild conditions (ortho-xylene, 146.5–147 °C) in almost quantitative yield. Among P(III) phosphorus trichloride and tribromide; phosphorous, 1-hydroxyethyli­de­ne-di­phos­phonic, pyrophosphorous and me­ta­phos­phorous acids; trimethyl-, dimethyl- and diethylphosphites; phosph(III)azan proved to be active catalysts; among Si(IV) – tri­chloro-(methyl)silane, dichloro(ethyl)silane, dichloro­(dimethyl)silane, tetrachlorosilane and tet­ra­ethoxysilane are active. The catalysts were used in an amount of only 2% mole. from hydroxynaphthoic acid, which is 15–35 times less than the conventional use of the same compounds as condensing agents in the synthesis of carboxylic acid arylamides. P(V) compounds, thionyl chloride, and sulfuryl chloride practically do not exhibit catalytic activity. The presence of catalytic activity only in P(III) compounds, capable of forming phosphorous acid in the reaction mass, does not contradict to the previously proposed mechanism of P = O-nucleophilic catalysis for the reaction of substituted benzoic acids with aniline catalyzed by PCl3. In general, the use of P(III) and Si(IV) compounds as catalysts in the preparation of hydroxybenzoic and hydroxynaphthoic acid anilides successfully complements the range of catalysts, based on Ti(IV) compounds, previously used in the formation of substituted benzoic and naphthoic acid anilides (containing no aromatically bonded hydroxy group), allowing to create a universal method for their synthesis.
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磷、硅化合物催化合成氧胞酸苯胺
磷P(III)和硅Si(IV)化合物催化苯胺与3-羟基-2-萘酸、1-羟基-2-萘酸、2-羟基-1-萘酸和1-羟基-4-萘酸的酰化反应,在温和条件下(邻二甲苯,146.5-147℃),以几乎定量产率生成相应的羟基-萘酸苯胺。在P(III)中,三氯化磷和三溴化物;磷、1-羟乙基- de - ne-二磷酸、焦磷酸和二磷酸;三甲基、二甲基和二乙基亚磷酸盐;磷酸(III)azan被证明是活性催化剂;硅(IV) -三氯-(甲基)硅烷、二氯(乙基)硅烷、二氯-(二甲基)硅烷、四氯硅烷和四氯-乙氧基硅烷具有活性。催化剂的用量仅为2%摩尔。从羟基萘酸中提取,这比常规使用相同化合物作为缩合剂合成羧酸芳酰胺少15-35倍。磷(V)化合物、亚硫酰氯和硫酰氯实际上不表现出催化活性。仅在反应质量中能形成磷酸的P(III)化合物中存在催化活性,这与先前提出的PCl3催化取代苯甲酸与苯胺反应的P = o -亲核催化机制并不矛盾。总的来说,使用P(III)和Si(IV)化合物作为催化剂制备羟基苯甲酸和羟基萘酸苯胺成功地补充了催化剂的范围,基于Ti(IV)化合物,以前用于形成取代苯甲酸和萘酸苯胺(不含芳香键合羟基),允许创建一个通用的方法来合成它们。
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