79710-86-4Relevant articles and documents
Application of organic amine additive in synthesis of fluorescent dye intermediate through olefin hydroformylation reaction
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Paragraph 0015-0023, (2021/07/31)
The invention discloses application of an organic amine additive in synthesis of a fluorescent dye intermediate through olefin hydroformylation reaction, and the application comprises the following steps: S1, the structure of the additive involved in the patent takes a nitrogen atom as a center, and three substituent groups linked with the nitrogen atom are alkyl groups or aromatic groups; and S2, in the hydroformylation reaction process, very few additives are introduced into the reaction system. The activity of a rhodium-aryl phosphine catalyst and the chemical selectivity of a product aldehyde can be obviously improved by using proper types and quantity of additives. The organic amine additive has the characteristics that compared with other types of additives reported in the literature, the organic amine additive can better regulate and control the activity of a rhodium-aryl phosphine catalyst and greatly improve the chemical selectivity of the product aldehyde, the organic amine additive provided by the invention can overcome the defects of other types of additives reported in the literature, and the cost of hydroformylation industrial production of various olefins is reduced.
Synthesis of an Azaphosphatriptycene and Its Rhodium Carbonyl Complex
Cao, Yu,Napoline, Jonathan W.,Bacsa, John,Pollet, Pamela,Soper, Jake D.,Sadighi, Joseph P.
, p. 1868 - 1871 (2019/05/16)
A 10-aza-9-phosphatriptycene is accessible on a gram scale, in three laboratory steps from commercially available precursors. Infrared spectroscopy of a rhodium(I) carbonyl complex bearing this ligand reflects the weak σ-donor/strong π-acceptor character of the phosphine; the solid-state structure reveals moderate steric demand. This ligand supports highly active catalysts for the hydroformylation of cyclic alkenes.
Backbone-Modified Bisdiazaphospholanes for Regioselective Rhodium-Catalyzed Hydroformylation of Alkenes
Wildt, Julia,Brezny, Anna C.,Landis, Clark R.
, p. 3142 - 3151 (2017/09/05)
A series of tetraaryl bisdiazaphospholane (BDP) ligands were prepared varying the phosphine bridge, backbone, and substituents in the 2- and 5-positions of the diazaphospholane ring. The parent acylhydrazine backbone was transformed to an alkylhydrazine via a borane reduction procedure. These reduced ligands contained an all sp3 hybridized ring mimicking the all sp3 phospholane of (R,R)-Ph-BPE, a highly selective ligand in asymmetric hydroformylation. The reduced bisdiazaphospholane (red-BDP) ligands were shown crystallographically to have an increased C-N-N-C torsion angle - this puckering resembles the structure of (R,R)-Ph-BPE and has a dramatic influence on regioselectivity in rhodium catalyzed hydroformylation. The red-BDPs demonstrated up to a 5-fold increase in selectivity for the branched aldehyde compared to the acylhydrazine parent ligands. This work demonstrates a facile procedure for increased branched selectivity from the highly active and accessible class of BDP ligands in hydroformylation.