Hydroformylation of Olefins Using Rhodium Complex Catalysts (Part 2)

Bulletin of The Japan Petroleum Institute Pub Date : 1977-05-25 DOI:10.1627/JPI1959.19.68
Matsui Yasushi, Hiroaki Taniguchi, K. Terada, M. Iriuchijima
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引用次数: 1

Abstract

Chemical changes of phosphorous ligands in the rhodium complex catalyst system were studied using 31P NMR analysis. Triphenyl phosphite was readily oxidized by the small amount of oxygen contained in the synthesis gas to triphenyl phosphate in the course of hydroformylation. It is conceivable that this oxidation reaction is the cause of deactivation of the catalyst. The treatment of the synthesis gas with triisobutyl aluminum in toluene solution was effective in preventing the oxidation of triphenyl phosphite to triphenyl phosphate and in prolonging the activity of the catalyst for a long period.A 191-hr cotinuous run was made to establish catalyst activity, and 3, 220g of aldehyde was obtained using only 6.5mg of rhodium.
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铑络合催化剂催化烯烃氢甲酰化反应(2)
采用31P核磁共振分析研究了铑络合催化剂体系中磷配体的化学变化。在氢甲酰化反应过程中,亚磷酸三苯酯容易被合成气中含有的少量氧氧化为磷酸三苯酯。可以想象,这种氧化反应是催化剂失活的原因。用三异丁基铝在甲苯溶液中处理合成气,可以有效地防止亚磷酸三苯氧化为磷酸三苯,并能长期延长催化剂的活性。连续运行191小时以确定催化剂活性,仅使用6.5mg铑就可制得3,220 g醛。
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Bulletin of The Japan Petroleum Institute
Bulletin of The Japan Petroleum Institute
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