Polymer-supported Pd(II) Wacker-type catalysts. Part III. Isomerisation of alkene double bond

Q4 Chemical Engineering 分子催化 Pub Date : 1994-11-13 DOI:10.1016/0304-5102(94)87025-X

H.G. Tang, D.C. Sherrington

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引用次数: 27

Abstract

A cyanomethylated polybenzimidazole coordinated to Pd(II) has been employed as a Wacker-type alkene oxidation catalyst in aqueous ethanol. Starting with alk-1-enes isomerisation to the more thermodynamically stable internal alkenes is very much faster than oxidation. Indeed after only a short time no alk-1-ene is detectable e.g. by nuclear magnetic resonance analysis. Almost certainly, however, traces of the alk-1-ene do exist in equilibrium. Irrespective of whether the starting alkene is oct-1-ene, t-oct-2-ene or t-oct-4-ene the same three products are obtained: octan-2-one, -3-one and -4-one. In the case of oct-1-ene and t-oct-2-ene the composition of the ketone product mixture is very similar, although with t-oct-4-ene a significant increase in the proportion of the 4-one is observed. The major product in all cases however in the 2-one. The latter almost certainly arises from rapid oxidation of a small stationary concentration of alk-1-ene, with shift of the alkene equilibria maintaining the latter. Direct oxidation of the higher alkenes to the higher ketones occurs more slowly, but contrary to other reports this is significant.

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聚合物负载Pd(II)瓦克型催化剂。第三部分。烯烃双键的异构化

采用氰甲基化聚苯并咪唑配位钯(II)作为瓦克型烯烃氧化催化剂。从烷烃异构化到热力学更稳定的内部烯烃比氧化要快得多。事实上，仅仅在很短的时间内，通过核磁共振分析就无法检测到烷基1-烯。然而，几乎可以肯定的是，平衡态中确实存在烷烃-1-烯的痕迹。不管起始烯烃是辛烷-1-烯、辛烷-2-烯还是辛烷-4-烯，都可以得到相同的三种产物:辛烷-2- 1、辛烷-3- 1和辛烷-4- 1。在辛-1-烯和辛-2-烯的情况下，酮产品混合物的组成非常相似，尽管在辛-4-烯中观察到4- 1的比例显著增加。主要产品在所有情况下，但在2- 1。后者几乎肯定是由少量固定浓度的烷烃-1-烯的快速氧化引起的，烯烃平衡的转移维持了后者。较高级的烯烃直接氧化为较高级的酮发生得较慢，但与其他报道相反，这是重要的。

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