【作者】 汤城；

【导师】 王艳辉；

【作者基本信息】 北京化工大学 ， 化学工程与技术， 2010， 硕士

【摘要】 本文简述了各类金属有机催化剂的合成及应用概况,介绍了C6Me6Ru(0)C6Me6的相关研究背景。基于钌的催化剂目前研究十分广泛,但对钌芳烃络合物催化芳烃加氢的研究却很少报道,特别是对零价的钌芳烃络合物。本文以RuCl3为原料合成了C6Me6Ru(0)C6Me6,总收率达到37%,比E. O. Fischer工艺收率提高了一倍。此工艺已经申请了发明专利。实验结果表明,金属有机络合物C6Me6Ru(0)C6Me6具有均相催化苯加氢的性能,在80℃,氢压为10atm时,催化苯加氢的TOF值(每摩尔催化剂在单位时间内催化底物的物质的量)能达到338h-1。此外,C6Me6Ru(0)C6Me6还具有催化苯部分加氢生成环己烯的性能,当苯的转化率为5%时,环己烯的选择性为10.8%。由于环己烯具有较高的附加值,络合物在选择性催化加氢方面具有较好的应用前景。此外C6Me6Ru(0)C6Me6对其他一些芳烃化合物也具有很好的催化加氢效果。由于空间位阻效应大于给电子效应,甲苯催化加氢速率明显低于苯,而且随着芳环上取代基的增大,空间位阻逐渐加大,其催化加氢速率依次下降。C6Me6Ru(0)C6Me6催化甲苯、对二甲苯、乙基苯加氢的TOF值分别为87h-1、64h-1、59h-1。除了芳烃环可被催化加氢外,链烯烃也可被催化加氢。苯乙烯催化加氢产物在其转化率达到45.4%时,只有乙基苯生成,未检测到乙基环己烷的产生,其TOF值高达227h-1。不仅如此,金属有机络合物C6Me6Ru(0)C6Me6还可用于有机合成领域,均相催化芳烃及其衍生物加氢。更多还原

【Abstract】 The synthesis route and application of some kinds of organometallic catalysts were introduced briefly in this paper. In addition, the research background of Ruthenium complex C6Me6Ru(0)C6Me6 was elaborated. Ru based catalysts were widely researched all over the world, but arene-ruthenium complexes as catalyst for selective hydrogenation of benzene to cyclohexene were rarely reported, especially the zero value ruthenium arene complexes. I have developed a synthetic route for C6Me6Ru(0)C6Me6. Under our experimental conditions, the overall yield of C6Me6Ru(0)C6Me6 could be reached to 37% based on RuCl3 and improved 18% than Fischer synthesis. This synthesis route had been applied for patent.Experimental results indicated that the lab synthesized organometallic compound C6Me6Ru(0)C6Me6 can be used as homogeneous catalyst for hydrogenation of benzene. TOF of benzene could be reached to 338h-1 under 1Oatm of hydrogen pressure under experimental conditions used. In addition, experimental tests indicated that C6Me6Ru(0)C6Me6 had good ability of selective hydrogenation of benzene to cyclohexene. The selectivity of cyclohexene production could be 10.8% when the conversion of benzene was 5.0% under experimental conditions used. Because of high additional value of cyclohexene, C6Me6Ru(0)C6Me6 has more developed potential. This organometallic compound C6Me6Ru(0)C6Me6 was also found to catalyze the hydrogenation of various benzene derivatives in homogenous phase. Toluene was hydrogenated slower than benzene, presumably due to the steric effects which was stronger than electronic effect. Therefore the TOF decreases for the benzene derivatives with bulky substituents because of the increasing steric effects. TOF of methylbenzene,p-dimethylbenzene, ethylbenzene were 87 h-1、64 h-1 59 h-1. In addition to the hydrogenation of aromatic ring, the alkene bond was also hydrogenated. The turnover for the hydrogenation of styrene to ethylbenzene was considerably higher than expected, ca.227h-1. Methylcyclohexane was, however, not detected at all by GC. Therefore this catalyst had considerable potential in organic synthesis, used to hydrogenate aromatic compounds. In addition, this compound can be used in organic synthesis as an effective homogenous catalyst for hydrogenation of benzene derivatives.更多还原