Ligand BINAPHOS

Hydrogenation, by far, has garnished the best results in homogeneous asymmetric catalysis, but efforts continue in the development of asymmetric hydroformylation. Several new ligands (Binaphos, Kelliphite, and ESPHOS) have been designed that have raised the level of enantioselectivities to 90-94% ee and regioselectivities to 88-99% in favor of the branched isomer. 

Figure 3. Asymmetric phosphine ligands BINAPHOS and Josiphos...

Second generation BINAPHOS-type ligands have been developed recently. Placing 3-methoxy substituents on the aryl phosphine unit furnishes a catalyst which allows for an enantioselective hydroformylation of vinylfurans (Scheme 19) [68]. 

Figure 6.11. (S,R) [CsFutCFCbL-BINAPHOS and related ligands used in the rhodium catalysed asymmetric...

The hydroformylation reactions were carried out in a number of different solvent systems, Table 2, at 50-60°C and 40 bar CO/H2 (1 1) using the (S,R)-1 m-C6F13(CH2)3]2-BINAPHOS ligand, Figure 6.11. After 18 hours in the PFMC/toluene system, 100% conversion was achieved with 100% selectivity to aldehydes of which 92% were... 

Zhang reported two new (S)-BINOL based ligands phosphine-phosphite (S,R)-o-BINAPHOS 163 and phosphine-phosphinite (S)-o-BIPNITE 164 [128]. Applications of these ligands in the Rh-catalyzed hydrogenation of methyl N-2-acetamido-cinnamate and methyl N-2-acetamidoacrylate induced very high enantioselectiv-ities (>99% ee), and with a wide range of substrates. 

Takaya and co-workers in 1993 were the first to report on asymmetric hydroformylation using phosphite-phosphine ligands [59]. In an attempt to combine the effectiveness of the BINOL chemistry for asymmetric catalysis and the effectiveness of the phosphite moiety for asymmetric hydroformylation, they developed the (.R,S)-BINAPHOS ligand 3, which turned out to be very efficient (Fig. 6). 

The characterization of the rhodium complexes formed under hydroformylation conditions by NMR techniques and in situ IR spectroscopy showed that there is a relationship between the structure of the [HRh(CO)2 (BINAPHOS)] species and their enantiodiscriminating performance. Thus, (R,S)- and (S,R)-BINAPHOS ligands show high equatorial-axial (ea) coordination preference with the phosphite moiety in the axial position. Meanwhile, the characterization of the (R,R)- and (S,S)-BINAPHOS ligands suggests that there is either a structural deviation of the monohydride complexes from an ideal TBP structure or an equilibrium between isomers [20,34],... 

Highly crosslinked polymer-supported-BINAPHOS ligands were effective for the hydroformylation of styrene and other functionalized olefins (ee s up to 89%). The catalyst could be recovered and reused at low stirring conditions [61,62]. 

Perfluoroalkyl-substituted BINAPHOS ligand 29c was also developed for the asymmetric hydroformylation of vinyl arenes in SCCO2. With this ligand regio-and enantio-selectivity (ee s up to 93.6%) were high without the need for hazardous organic solvents [63,64],... 

Inspired by the excellent results using the BINAPHOS ligands, new phosphine-phosphite ligands with different backbones have been developed in recent years. Unfortunately, their Rh-catalyzed hydroformylation provided low-to-moderate enantioselectivity (ee s from 20 to 62%) [35,36,65]. 

The phosphine-phosphite BINAPHOS ligand was first used in the Rh-catalyzed asymmetric hydroformylation of heterocyclic olefins such as 2,5-dihydrofuran, 3-pyrroline derivatives, and 4,7-dihydro-1,3-dioxepin derivatives. It provided the optically active aldehydes as single products with enantioselectivity between 64-76% ee. In the hydroformylation of 2,5-di-... 

Asymmetric rhodium catalysts are discussed in section 8.6. The most interesting ligand discovered for asymmetric hydroformylation is undoubtedly BINAPHOS, introduced by Takaya [18], but certain diphosphites also give high enantioselectivities [19,20],... 

The results obtained for ligands 48 and 50, which contain only one fixed stereocentre, are interesting and very informative about the system. Ligand 48-(R,—), in which only the binaphthyl bridge has a predetermined absolute configuration R, leads to an e.e. of 83% (R-aldehyde), which is quite close to the value of 94% for (R,S)-BINAPHOS. This suggests that in the formation of the complex the binaphthyl bridge controls the conformation of the bisphenol... 

The C02-philic perfluoroalkyl-substituted (R,S)-3-H F -BINAPHOS ligand [34] was successfully applied to enantioselective hydrogenation in the inverted SCCO2/H2O system. The complex [Rh(cod)2]BARF was chosen as metal source and the active catalyst was formed in situ. Using the same procedure as above, similar activities and more than 98% ee were obtained consistently over five subsequent cycles in the hydrogenation of methyl 2-acetamido acrylate. The results demonstrate the potential of the inverted SCCO2/H2O system for asymmetric synthesis of chiral biologically active products. 

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