Hydroformylation of Olefins Using Rhodium Complex Catalysts (Part 1)

Bulletin of The Japan Petroleum Institute Pub Date : 1977-05-25 DOI:10.1627/JPI1959.19.62
Matsui Yasushi, Hiroaki Taniguchi, K. Terada, Tetsuo Anezaki, M. Iriuchijima
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引用次数: 6

Abstract

A new catalyst system is described for producing normal aldekydes predominantly from α-olefins. The catalyst consists of a rhodium compound, triphenyl phosphite and sodium acetate. Effects of various reaction parameters on the ratio of n- to iso-aldehyde are reported. Sodium acetate has been found to be highly selective production of normal isomer and for maintaining the activity of the catalyst for a long period of time.The rate of aldehyde formation depends on the concentration of rhodium as follows:d[aldehyde]/dt∝[Rh]1.0 (at initial state) d[aldehyde]/dt∝[Rh]0.7 (at stationary state)However, the concentration of rhodium has little effect on the n/i ratio.
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铑络合催化剂催化烯烃氢甲酰化反应(1)
介绍了一种主要由α-烯烃生成正醛的新型催化剂体系。催化剂由铑化合物、亚磷酸三苯酯和乙酸钠组成。报道了不同反应参数对n-与异醛比的影响。研究发现,醋酸钠对正常异构体的生成具有很高的选择性,并能长时间保持催化剂的活性。醛的生成速率取决于铑的浓度:d[醛]/dt∝[Rh]1.0(初始状态)d[醛]/dt∝[Rh]0.7(稳态),而铑的浓度对n/i比影响不大。
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Bulletin of The Japan Petroleum Institute
Bulletin of The Japan Petroleum Institute
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