Binaphthol derivatives

Yamamoto et al. have reported a chiral helical titanium catalyst, 10, prepared from a binaphthol-derived chiral tetraol and titanium tetraisopropoxide with azeotropic removal of 2-propanol [16] (Scheme 1.22, 1.23, Table 1.9). This is one of the few catalysts which promote the Diels-Alder reaction of a-unsubstituted aldehydes such as acrolein with high enantioselectivity. Acrolein reacts not only with cyclo-pentadiene but also 1,3-cyclohexadiene and l-methoxy-l,3-cyclohexadiene to afford cycloadducts in 96, 81, and 98% ee, respectively. Another noteworthy feature of the titanium catalyst 10 is that the enantioselectivity is not greatly influenced by reaction temperature (96% ee at... 

A combination of diethylzinc with sulfonamides 18 or 19 offers another possibility for the enantioselective acetate aldol reaction39,41. The addition of silyl enol ethers to glyoxylates can be directed in a highly enantioselective manner when mediated by the binaphthol derived titanium complex 2040. 

Binaphthol-derived titanium complexes [64], prepared from chiral ligands 65 (Figure 3.13), also performed very well in the cycloadditions of conjugated aldehydes with cyclic and acyclic dienes. Judging from the absolute configurations of endo and exo adducts, this catalyst should cover the re-face of carbonyl on its u tz-coordination to s-trans a,/l-unsaturated aldehydes, and hence dienes should approach selectively from the si-face. 

Many opportunities conversely are supported by reversible reactions of QM despite the noted complications. One example includes the synthesis and chiral resolution of binaphthol derivatives by two cycles of QM formation and alkylation.77 The reversibility of QM reaction may also be integrated in future design of self-assembling systems to provide covalent strength to the ultimate thermodynamic product. To date, QMs have already demonstrated great success in supporting the opposite process, spontaneous disassembly of dendrimers (Chapter 5). 

Lewis acids of chiral metal aryloxides prepared from metal reagents and optically active binaphthol derivatives have played a significant role in asymmetric synthesis and have been extensively studied.23 However, in Diels-Alder reactions, the asymmetric induction with chiral metal aryloxides is, in most cases, controlled by steric interaction between a dienophile and a chiral ligand. This kind of interaction is sometimes insufficient to provide a high level of enantioselectivity. 

Chiral 1,1 -binaphthol derivatives are well established as readily available chiral catalysts and auxiliaries for the production of various useful optically active compounds. Tanabe et al. investigated [11] a crystalline-liquid resolution of (1R) -// . v - c h rysanthemic acid utilizing l,l -binaphthyl monoethyl ether (25) (Scheme 3). 

Thus, (1 A S Hra/7.v-chrysanthemic acid was condensed with 1,1 -binaphthol derivative using the TsCb/V-methylimidazole reagent to give the corresponding two sets of diastereomers (26) and (27). From the solution, only the (l/ )-trans-chrysanthemic acid ester (26) crystallized from the diastereomer mixtures. The ester was readily... 

In 1996, Feringa and co-workers (164) reported the use of binaphthol-derived phosphoramidite 232a as a ligand for the copper-catalyzed conjugate addition. Addition of 2 equiv of 232a to Cu(OTf)2 forms an effective catalyst for the selective... 

The moderate ees obtained with the copper arenethiolate ligands discussed above prompted a search for new chiral ligands for use in asymmetric allylic substitution reactions. The binaphthol-derived phosphoramidite ligand 32, used successfully by Feringa et al. in copper-catalyzed 1,4-addition reactions [37], was accordingly tested in the reaction between 21 and n-BuMgl. 

Woodward et al. have used the binaphthol-derived ligand 40 in asymmetric conjugate addition reactions of dialkylzinc to enones [46]. Compound 40 has also been studied as a ligand in allylic substitutions with diorganozinc reagents [47]. To allow better control over selectivity in y substitution of the allylic electrophiles studied, Woodward et al. investigated the influence of an additional ester substituent in the jS-position (Scheme 8.25). 

Fig. 8.5. Binaphthol-derived phosphoramidite ligands developed by Feringa et al.

A number of structurally very different copper complexes were employed as catalysts. The copper complex of binaphthol-derived phosphoramidite 32 and the Schiff base complex 53 (derived from salicylaldehyde and phenylglycine) gave promising results in a screening reaction between 52 and MeMgBr, and 53 was chosen as the candidate for optimization. The effect of solvent (THF or Et20),... 

In an effort to impart a stronger twist sense bias on the mPE helix, a chiral binaphthol derivative was placed directly into the mPE backbone [64]. The chiral binaphthol unit was placed both at the center (47) and terminus (48) of the oligomer in order to determine how the position of the chiral unit would affect the twist sense bias and folded state stability. Solvent denaturation studies (UV... 

The Brintzinger-type C2-chiral titanocene catalysts efficiently promote asymmetric hydrogenation of imines (Figure 1.30). A variety of cyclic and acyclic imines are reduced with excellent enantioselectivity by using these catalysts. The active hydrogenation species 30B is produced by treatment of the titanocene binaphtholate derivative 30A with n-butyllithium followed by phenylsilane. 

Terada expanded the phospha-Michael reaction to include diphenyl-phosphites [128]. A novel binaphthol-derived guanidine catalyst promoted the addition in high yields and enantioselectivities (Scheme 73). Functionalizing the external nitrogen with a diphenylmethine moeity enhanced selectivities for a large scope of nitro-olefm derivatives. 

Wang and co-workers reported a novel class of organocatalysts for the asymmetric Michael addition of 2,4-pentandiones to nitro-olefms [131]. A screen of catalyst types showed that the binaphthol-derived amine thiourea promoted the enantiose-lective addition in high yield and selectivity, unlike the cyclohexane-diamine catalysts and Cinchona alkaloids (Scheme 77, Table 5). 

The best reactivity and selectivity was illustrated with the binaphthol derived thiourea amine catalyst 277. The substrate scope was explored primarily with P-aryl-nitro-olefms of both electron-donating and electron-withdrawing natures. Yields and selectivities were high for the majority of substrates (Scheme 78). 

Diastereoselective rearrangement of binaphthol-derived ether 45 to 46 (equation 24) has been developed by Kiyooka and colleagues for the stereoselective functionalization of binaphthol . 

Some excellent bisphosphonite ligands have also been developed. For example, Re-etzfs binaphthol-derived ferrocene-based bisphosphonite hgand L12 has demonstrated to have excellent reactivity and enantioselectivity in the rhodium-catalyzed hydrogenation of itaconates and a-dehydroamino acid derivatives [76]. Zanotti-Gerosa s bisphosphonite ligand L13 has also been successfully apphed to the asymmetric hydrogenation of a-dehydroamino acid derivatives with up to 99% ee [77]. 

After completing his initial intramolecular cycloaddition, Hodgson utilized conditions that had been optimized for the intermolecular cycloaddition of DMAD with simple cyclic carbonyl ylides used by Hashimoto and co-workers (139). Hodgson et al. (140) found that the reaction indeed gave excellent overall chemical yield, but the enantioselectivity dropped to 1%, giving essentially a racemic mixture. It appeared that ee ratios were sensitive to the electronic nature of the dipole. Hodgson chose to screen several binaphthol derived rhodium catalysts of the type developed by McKervey and Pirrung, due in part to the reports of... 

A full account5 describes the enantioselective carbonyl-ene reaction of glyoxylate esters catalyzed by a binaphthol-derived chiral titanium complex that is potentially useful for the asymmetric synthesis of a-hydroxy esters of biological and synthetic importance.6 The present procedure is applicable to a variety of 1,1-disubstituted olefins to provide ene products in extremely high enantiomeric purity by the judicious choice of the dichloro or dibromo chiral catalyst (see Table). In certain glyoxylate-ene reactions involving removal of a methyl hydrogen, the dichloro catalyst... 

Enantioselective Claisen rearrangement of allyl (a-trimethylsilyl)vinyl ethers in the presence of aluminium binaphthol derivatives gives ft-chiral y, <5-unsaturated acyl silanes with good ee (Scheme 33)114. 

Yokoyama et al. showed that the binaphthol derivatives of indolylfulgides 11 and 12 functioned as chiral dopants to generate cholesteric phases on addition to nematic liquid crystal 26. Photoirradiation induced dramatic changes in cholesteric... 

For example, N-(2-hydroxyphenyl)imines 9 (R = alkyl, aryl) together with chiral zirconium catalysts generated in situ from binaphthol derived ligands were used for the asymmetric synthesis of a-amino nitriles [17], the diastereo- and/or enantioselective synthesis of homoallylic amines [18], the enantioselective synthesis of simple //-amino acid derivatives [19], the diastereo- and enantioselective preparation of a-hydroxy-//-amino acid derivatives [20] or aminoalkyl butenolides (aminoalkylation of triisopropylsilyloxyfurans, a vinylogous variant of the Mannich reaction) [21]. A good example for the potential of the general approach is the diastereo- and enantioselective synthesis of (2R,3S)-3-phenylisoserine hydrochloride (10)... 

A similar system was studied a few years later by the S chaus group [89], who compared several binaphthol-derived chiral Bronsted acids such as 92a and 94a-d in the triethylphosphine-mediated MBH reaction between cyclohexenone and aldehydes. Optimized conditions were found with 2-20 mol% of chiral Bronsted acid and an excess of triethylphosphine (200 mol%) as the nucleophilic promoter at 0-10 °C in THF. Using PMe3 or P(n-Bu)3 in the reaction afforded 76 in yields similar to that of PEt3, but in lower enantioselectivity (50% and 64% ee, respectively). The use of only (R)-BINOL in the MBH reaction of dihydrocinnamaldehyde 74 and cyclohexenone 75 resulted in the formation of 76 in 16% ee. Partially saturated BINOL derivatives such as 94a-d offered high chemical yield and enantio selectivity (Scheme 5.19) [91]. Optimal results with the addition of aliphatic al-... 

Scheme 5.19 The achiral phosphine and chiral binaphthol-derived Bronsted acid-catalyzed MBH reaction of cyclohexenone and 3-phenyl propionaldehyde.

Typical Procedure for the Triethyl Phosphine and Chiral Binaphthol-Derived Bronsted Acid Co-Catalyzed Asymmetric MBH Reaction [43] (pp. 173 and 232)... 

A broad range of biaryl structures, as is often encountered in various classes of naturally occurring compounds, such as alkaloids, lignans, and tannins, can be prepared by oxidative arylic coupling. Oxidative couplings have also been used to build non-natural skeletons, such as the binaphthol derivatives that play an important role in asymmetric synthesis. 

The chiral BINAPHTHOL derivative (H)-ll and two equivalents of Zn(C2H5)2 produced an active catalyst for the asymmetric reduction of acetophenone with... 

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