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维生素E的催化合成路线分析 被引量:6

How to Synthesize Vitamin E
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摘要 维生素E具有多种特异的生理活性,同时也是一种优良的抗氧化剂,已经逐渐成为维生素领域中的焦点,市场需求不断增加。目前合成维生素E占据市场的80%以上,提升维生素E的产量和生产效率势在必行。天然维生素E包括四种生育酚类物质和四种生育三烯酚类物质,其中α-生育酚含量最大,生理活性也最高。本综述简要介绍α-生育酚的合成路线,其中包括2,3,5-三甲基氢醌和异植物醇的合成以及它们二者缩合的反应。本文着重阐述路线的设计和催化剂的选择,并对存在的问题及潜在的解决办法进行评述和展望。 Vitamin E compounds are biologically active and are frequently used as antioxidants. The demand for Vitamin E compounds has increased significantly in recent years, and at present, more than 80% of the market demand for Vitamin E is fulfilled by its synthetic counterparts. Therefore, it is imperative to increase the production of Vitamin E. Vitamin E compounds contain tocopherol and tocotrienol derivatives, and a-tocopherol, which dominates the sound, is the most biologically active. This review covers the methods of preparation of a-tocopherol, focusing on the synthesis routes, chemical reactions, and corresponding catalysts. The synthesis of Vitamin E, includinq preparation of 2,3,5-trimethylhydroquinone (TMHQ), preparation of isophytol, and condensation of TMHQ and isophytol are discussed in detail. The disadvantages and issues related to the preparation methods are also included. In general, the preparation of TMHQ comprises three steps: (1) methylation of m-cresol to 2,3,6-trimethylphenol, (2) oxidation of 2,3,6-trimethylphenol to 2,3,5- trimethylbenzoquione (TMBQ), and (3) hydrogenation of TMBQ to TMHQ. Recently, a novel and attractive method using isophorone, which can be produced by self-condensation of acetone, as a source for synthesizing TMHQ has been developed. Among these procedures, it is important to attain high selectivity in the oxidative reactions, including oxidation of 2,3,6-trimethylphenol and isophorone (a-isophorone or 13-isophorone), and to replace H202, a common oxidant, by oxygen or air. One of the methods of preparation of isophytol using citral as a source has been abandoned because of shortage of oil of litsea cubeba, which is a natural source of citral. Linalool, produced from 6-methyl-5-hepten-2-one, is a key intermediate in the main process of preparation of isophytol. Both BASF SE and Roche have developed effective methods for the preparation of 6-methyl-5-hepten-2-one, respectively. Semi-hydrogenation of alkynols plays a key role in the whole process. The selectivity, especially at high conversion is directly related to the profit; therefore, it is of great importance for industries. The condensation of TMHQ and isophytol is essentially a FriedeI-Crafts alkylation reaction catalyzed by acids. Similar reactions include methylation of m-cresol. Bronsted acids are usually effective for these reactions; however, it is difficult to recover these catalysts from the homogeneous systems. Therefore solid acid has a great potential in this area and it is also a promising topic to reduce the loss of acid sites when using acid-immobilized catalysts. The supply of various sources of the reactants and the local policy need to be considered while choosing an appropriate method for the preparation of Vitamin E.
作者 王哲 毛善俊 李浩然 王勇 WANG Zhe;MAO Shanjun;LI Haoran;WANG Yong(ZJU-NHU United R&D Center, Institute of Catalysis, Department of Chemistry, Zhejiang University, Hangzhou 310028, P. R. China.)
出处 《物理化学学报》 SCIE CAS CSCD 北大核心 2018年第6期598-617,共20页 Acta Physico-Chimica Sinica
基金 国家自然科学基金(21622308,91534114,21376208)资助项目
关键词 维生素E 生育酚 2 3 5-三甲基氢醌 异植物醇 催化剂 Vitamin E Tocopherol 2,3,5-trimethylhydroquinone Isophytol Catalyst
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