Highly active cationic cobalt(II) hydroformylation catalysts

Highly active cationic cobalt(II) hydroformylation catalysts

The cobalt complexes HCo(CO)(4) and HCo(CO)(3)(PR3) were the original industrial catalysts used for the hydroformylation of alkenes through reaction with hydrogen and carbon monoxide to produce aldehydes. More recent and expensive rhodium-phosphine catalysts are hundreds of times more active and ope...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2020-01, Vol.367 (6477), p.542-548
Hauptverfasser: Hood, Drew M., Johnson, Ryan A., Carpenter, Alex E., Younker, Jarod M., Vinyard, David J., Stanley, George G.
Format: Artikel
Sprache:eng
Schlagworte:
Aldehydes
Alkenes
Carbon monoxide
Carbonyl compounds
Carbonyls
Catalysts
Cations
Charging
Chelation
Chemical industry
Chemical reactions
Cobalt
Cobalt compounds
Decomposition reactions
Intermediates
Isomerization
Ligands
Multidisciplinary Sciences
Organic chemistry
Phosphine
Phosphines
Regioselectivity
Rhodium
Science & Technology
Science & Technology - Other Topics
Steric effects
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Zusammenfassung:The cobalt complexes HCo(CO)(4) and HCo(CO)(3)(PR3) were the original industrial catalysts used for the hydroformylation of alkenes through reaction with hydrogen and carbon monoxide to produce aldehydes. More recent and expensive rhodium-phosphine catalysts are hundreds of times more active and operate under considerably lower pressures. Cationic cobaft(II) bisphosphine hydrido-carbonyl catalysts that are far more active than traditional neutral cobalt(I) catalysts and approach rhodium catalysts in activity are reported here. These catalysts have low linear-to-branched (L:B) regioselectivity for simple linear alkenes. However, owing to their high alkene isomerization activity and increased steric effects due to the bisphosphine ligand, they have high L:B selectivities for internal alkenes with alkyl branches. These catalysts exhibit long lifetimes and substantial resistance to degradation reactions.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.aaw7742