Binaphthyls binap

Catalytic asymmetric hydrogenation was one of the first enantioselective synthetic methods used industrially (82). 2,2 -Bis(diarylphosphino)-l,l -binaphthyl (BINAP) is a chiral ligand which possesses a Cg plane of symmetry (Fig. 9). Steric interactions prevent interconversion of the (R)- and (3)-BINAP. Coordination of BINAP with a transition metal such as mthenium or rhodium produces a chiral hydrogenation catalyst capable of inducing a high degree of enantiofacial selectivity (83). Naproxen (41) is produced in 97% ee by... 

Early work in the field of asymmetric hydroboration employed norbornene as a simple unsaturated substrate. A range of chiral-chelating phosphine ligands were probed (DIOP (5), 2,2 -bis(diphenyl-phosphino)-l,l -binaphthyl (BINAP) (6), 2,3-bis(diphenylphosphino)butane (CHIRAPHOS) (7), 2,4-bis(diphenylphosphino)pentane (BDPP) (8), and l,2-(bis(o-methoxyphenyl)(phenyl)phos-phino)ethane) (DIPAMP) (9)) in combination with [Rh(COD)Cl]2 and catecholborane at room temperature (Scheme 8).45 General observations were that enantioselectivities increased as the temperature was lowered below ambient, but that variations of solvent (THF, benzene, or toluene) had little impact. 

A palladium-catalyzed protocol for carbon-sulfur bond formation between an aryl triflate and para-methoxybenzylthiol was introduced by Macmillan and Anderson (Scheme 6.66) [138], Using palladium(II) acetate as a palladium source and 2,2 -bis(diphenylphosphino)-l,l -binaphthyl (BINAP) as a ligand, microwave heating of the two starting materials in N,N-dimethylformamide at 150 °C for 20 min in the presence of triethylamine base led to the formation of the desired sulfide in 85% yield. 

The first example of an enantioselective [5 + 2]-cycloaddition was reported for the tethered alkene-VCP 7a, which upon treatment with a chiral rhodium complex afforded the m-fused bicyclo[5.3.0]decene 8a in 80% yield and 63% enantiomeric excess (ee) (Equation (6)).39 A later study found that when a 2,2-bis(diphenyl-phosphanyl)-l,l-binaphthyl (BINAP)-modified rhodium(l) catalyst is used, good to excellent ee s and yields are achieved with a variety of substrates (Equation (7)).40... 

A reaction of sulfoximine 268 with ort o-substituted halobenzaldehydes 269 takes place in the presence of a catalytic amount of Pd(ii), 2,2 -bis(diphenylphosphanyl)-l,l -binaphthyl (BINAP), and caesium carbonate at 110°C to afford fully conjugated 2-phenyl-2,l-benzothiazine 2-oxides 270 with a S(vi) oxidation state (Scheme 38) <1999AGE2419>. Bis-benzothiazine 75 has been prepared from dibromo-dialdehyde 271 in a similar manner and investigated as a ligand for Pd-catalyzed allylic alkylation reactions (see Section 8.07.12.3) <20010L3321>. 

Enantioselective carbonylative cyclization has been realized with o-alkenylaryl triflates in the presence of 2,2-bis(diphenyl-phosphanyl)-1,1-binaphthyl (BINAP) or TolBINAP ligands in high material yields and enantiomeric excess (Equation (41)). ... 

In 1996, Yamamoto and Yanagisawa reported the allylation reaction of aldehydes with allytributyltin in the presence of a chiral silver catalyst.2 They found that the combination of silver and a phosphine ligand accelerates the allylation reaction between aldehydes and allyltributyltin. After this discovery, they screened several chiral phosphine ligands and found that chiral silver-diphosphine catalysts can effect the reaction in an enantioselective fashion (Table 9.1).2 For example, when benz-aldehyde and allyltributyltin were mixed in the presence of 5 mol% of AgOTf and (S)-2,2 -bis(diphenylphosphino)-1,1 -binaphthyl (BINAP), the corresponding homoallyl alcohol was obtained with 96% ee and 88% yield (Table 9.1). Generally, the reaction with aromatic aldehydes afforded the corresponding homoallyl alcohols in excellent... 

Let us consider as an example the synthesis of a precursor of the hydrogenation catalyst A -2,2 -biski iphenylphosphino)-1,1 -binaphthyl //-BINAP (Figure 5.59). The substrate of this reaction is enantiomerically pure A -l, l -bi-2-naphthol tA-BINOL). Its OH groups become... 

Arylation of 3,2,3-tet with 1,2-dibromobenzene (Pd(0), 2,2-bis(diphenyl-phosphanyl)-l, 1-binaphthyl (BINAP), NaOHu1, dioxane, reflux 70h) led to benzocyclam 47 in a low yield (12%) <2003TL1433>. Low yields of other tetraazacycles were obtained similarly with other amines and arylhalogenides. 

The most frequently applied ligands are 2,2 -binaphthol (BINOL la) and 2,2 -bis(diphenyl-phosphino)binaphthyl (BINAP lb). Both antipodes of these compounds are commercially available in enantiopure form, though not at little cost [3]. It is rewarding, therefore, to become acquainted with the syntheses of these compounds, which have been described in detail [4J and have been simplified substantially on the basis of recent publications [5J. The iron(lIl)-catalyzed dimerization of 2-naphthol (2) to give racemic BINOL (rac)-la succeeds smoothly and on a large scale (Scheme 1). Its resolution can be achieved easily with N-benzylcinchoidinium chloride (3) and yields both (/ )- and (5 )-la in high enantiomeric excesses. After conversion into the ditri-flate 4, enantiopure la can be coupled with diphe-nylphosphine (or, in lower yield, with cheaper chlorodiphenylphosphine) in a nickel-catalyzed... 

Similarly, intramolecular Pauson-Khand reactions can be utilized for tetrahydrofuran synthesis, when the tethers are oxa substituted. Ligand effects on stereoselectivity in Rh(i)-catalyzed asymmetric Pauson-Khand-type reactions have been investigated and ee s of up to 92% have been achieved with the 2,2-bis(diphenyl-phosphanyl)-l,l-binaphthyl (BINAP) ligand and a Rh(i) precatalyst (Equation 91). However, it has to be noted that the ee is highly substrate dependent, and considerably lower in most other cases <2006S4053>. 

The newly developed ruthenium catalyst 184, having 2,2-bis(diphenyl-phosphanyl)-l, 1-binaphthyl (BINAP) and 2-picolylamine as ligands, effects asymmetric reduction of/-butyl (2-thienyl) ketone under mild conditions with very high enantioselectivity <2005JA8288>. The (6 )-enantiomer of the complex leads to the (/ )-alcohol with 98% ee (Equation 84). 

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