Thermoregulated phase transfer ligands and catalysis. III. Aqueous/organic two-phase hydroformylation of higher olefins by thermoregulated phase-transfer catalysis

A series of poly(ethylene oxide)-substituted triphenylphosphines, Ph 3− m P[C 6H 4- p-(OCH 2CH 2) n OH] m (PEO-TPPs; 1a m=1, 1b m=2, 1c m=3; N= m× n=8–25), have been prepared by the ethoxylation of mono-, di-, and tri- p-hydroxytriphenylphosphines. PEO-TPPs demonstrate an inverse temperature-depende...

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Bibliographic Details
Published in:Catalysis today 1998-09, Vol.44 (1), p.175-182
Main Authors: Zheng, Xiaolai, Jiang, Jingyang, Liu, Xiaozhong, Jin, Zilin
Format: Article
Language:English
Subjects:
Catalysis
Catalytic reactions
Chemistry
Exact sciences and technology
General and physical chemistry
Higher olefin
Hydroformylation
Poly(ethylene oxide)-substituted triphenylphosphine
Theory of reactions, general kinetics. Catalysis. Nomenclature, chemical documentation, computer chemistry
Thermoregulated phase-transfer catalysis
Two-phase catalysis
Water-soluble ligand
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Summary:A series of poly(ethylene oxide)-substituted triphenylphosphines, Ph 3− m P[C 6H 4- p-(OCH 2CH 2) n OH] m (PEO-TPPs; 1a m=1, 1b m=2, 1c m=3; N= m× n=8–25), have been prepared by the ethoxylation of mono-, di-, and tri- p-hydroxytriphenylphosphines. PEO-TPPs demonstrate an inverse temperature-dependent solubility in water, and possess distinct cloud points range from 26°C to 90°C. Based on the clouding property of PEO-TPPs, a new line of aqueous/organic two-phase catalysis termed the thermoregulated phase-transfer catalysis (TRPTC) has been described. That is, the catalyst transfers into the organic phase to catalyze a reaction at a higher temperature, and returns to the aqueous phase to be separated from the products at a lower temperature. Application of this novel strategy to the rhodium-catalyzed two-phase hydroformylation of higher olefins gave desirable results with an average turnover frequency of 180 h −1 for 1-dodecene. The TRPTC is suitable for carrying out a reaction with extremely water-immiscible substrate in the aqueous/organic two-phase system. Thus, the application scope of the classical two-phase catalysis has been widened.
ISSN:0920-5861
1873-4308
DOI:10.1016/S0920-5861(98)00188-6