Chiral binaphthyl moiety

In 2007, Maruoka et al. introduced chiral dicarboxylic acids consisting of two carboxylic acid functionalities and an axially chiral binaphthyl moiety. They applied this new class of chiral Brpnsted acid catalyst to the asymmetric alkylation of diazo compounds withA-Boc imines [91]. The preparation of the dicarboxylic acid catalysts bearing aryl groups at the 3,3 -positions of the binaphthyl scaffold follows a synthetic route, which has been developed earlier in the Maruoka laboratory [92]. 

Pu reported the synthesis of axially chiral-conjugated polymer 82 bearing a chiral binaphthyl moiety in the main chain by the cross-coupling polymerization of chiral bifunctional boronic acid 80 with dibromide 81 (Equation (39)). The polymer is soluble in common organic solvents, such as THE, benzene, toluene, pyridine, chlorobenzene, dichloromethane, chloroform, and 1,2-dichloroethane. The polymer composed of racemic 80 was also synthesized, and the difference of characteristics was examined. Optically active polymer 82 was shown to enhance fluorescence quantum yield up to = 0.8 compared with the racemic 82 ( = 0.5). Morphologies of the optically active and racemic polymers were also compared with a systematic atomic-force microscopy (AEM). 

The Maruoka group s further efforts toward simplification of the catalyst have led to the design of new, polyamine-based chiral phase-transfer catalysts of type 15, with expectation of the multiplier effect of chiral auxiliaries, as illustrated in Scheme 5.10 [13]. The chiral efficiency of such polyamine-based chiral phase-transfer catalysts (S)-15 was examined by carrying out an asymmetric alkylation of glycine derivative 2 under phase-transfer conditions. Among various commercially available polyamines, spermidine- and spermine-based polyammonium salts were found to show moderate enantioselectivity. In particular, the introduction of a 3,4,5-trifluor-ophenyl group at the 3,3 -positions of chiral binaphthyl moieties showed excellent asymmetric induction. 

The strategy described here explains the different possibilities of enzymatic ammonolysis and aminolysis reaction for resolution of esters or preparation of enantiomerically pure amides, which are important synthons in organic chemistry. This methodology has been also applied for the synthesis of pyrrolidinol derivatives that can be prepared via enzymatic ammonolysis of a polyfunctional ester, such as ethyl ( )-4-chloro-3-hydroxybutanoate [30]. In addition, it is possible in the resolution of chiral axe instead of a stereogenic carbon atom. An interesting enzymatic aminolysis of this class of reaction has been recently reported by Aoyagi et al. [31[. The side chain of binaphthyl moiety plays an important role in the enantiodis-crimination of the process (Scheme 7.14). 

In 2002, Hoveyda et al. reported the synthesis, structure and reactivity of a chiral bidentate Ru-based catalyst 65, bearing a binaphthyl moiety, for olefin metathesis [33]. Preference for a bidentate chiral imidazolinylidene was based on the hypothesis that such a ligand would induce chirality more efficiently. This catalyst was designed by analogy with similar achiral complexes 66 that... 

Both steric and electronic factors are used for chiral recognition of saccharides by the R and S forms of S-3. A difference in PET efficiency is created by the asymmetric immobilization of the amine groups relative to the binaphthyl moiety upon 1 1 complexation of saccharides by d- or L-isomers. For instance, D-fructose is recognized by the R form of S-2 with a large fluorescence enhancement. 

Interestingly, the hydroformylation results obtained with ligands 2b and 2d, which have conformationally flexible axially chiral biphenyl moieties, are similar to those obtained with ligand 2m, which have conformationally rigid binaphthyl moieties. This indicates that diphosphite ligands that contain the conformationally flexible axially chiral biphenyl moieties predominantly exist as single atropoisomer in the [RhH(CO)2 (diphosphite)] complexes... 

Some monophosphines are also revealed to work as reasonably effective ligands. Imamoto and Tsuruta prepared and applied P-chirogenic monophosphines 38 to the allylic alkylation (up to 96% ee) (Equation (7)). Nelson and Hilfiker found that monophosphines 39 bearing a tricarbonyl(arene)chromium moiety work as effective chiral ligands (up to 92% ee) (Equation (7)). " Some monophosphines 40-42 bearing a binaphthyl moiety and some mono-dentate phosphoramidites 43-45 work as quite effective chiral ligands (Equation (7)). Several other monophosphines 46-48 applied to the asymmetric allylic alkylation are summarized in Scheme 5 39,39a-39h... 

This unique phenomenon provides a powerful strategy in the molecular design of chiral catalysts that is, the requisite chirality can be served by the simple binaphthyl moiety, while an additional structural requirement for fine-tuning of reactivity and selectivity can be fulfilled by an easily modifiable achiral biphenyl structure. This certainly obviates the use of two chiral units, and should be appreciated in the synthesis of a variety of chiral catalysts with different steric and/or electronic properties. Actually, quaternary ammonium bromide possessing a sterically demanding substituent such as (S)-12b can be easily prepared, and benzylation with (S)-12b as catalyst gave 9 in 95% yield with 92% ee. Further, theenantioselectivity was enhanced to 95% ee with (S)-12c as a catalyst [12]. 

Peroxidases are also active in the oxidation of naphthyl derivatives. In particular, when the substrates are 2-naphthols, the interesting derivatives 1,1 -dinaphthyl-2,2 -diols are formed [23] (Fig. 6.Id). In the presence of suitable substituents blocking the rotation of the naphthyl moieties, chiral binaphthyls can be obtained with enantiomeric enrichment [33, 34]. 

Pioneering studies by Cram and co-workers employed crown ether arrays 35a-c incorporating a 2,2 -dihydroxy-l,l -binaphthyl unit as the chiral barrier <1975PAC327>. Enhancements in the chiral recognition of amino acids were obtained by placing large substituents, at the 3,3 -positions of the binaphthyl moiety, so as to raise its steric barrier. 3,3 -Diphenyl derivative 35c is often the benchmark to which other chiral crown ethers are compared <1981JOC393>. 

C2 symmetric, chiral ketene dithioacetals containing the binaphthyl moiety can be prepared by Peterson alkenation of the title reagent (eq 6). The corresponding bis-sulfone affords one exo and one endo adduct with cyclopentadiene (eq 7) which, once separated and desulfonylated, give the corresponding norbomenes (see 1,1 -Bis(phenylsulfonyl)ethylene) ... 

Related Reagents. The synthesis of chiral diazenedicarboxylates as potential chiral electrophilic aminating agents has received little attention. A series of chiral bomyl, isobomyl and menthyl diazenedicarboxylates has been reported and their reaction with achiral enolates of esters and N,N-dimethyl amides afforded a-hydrazino acid derivatives with little or no selectivity. Incorporation of a chiral azodicarboxamide unit into a chiral bridging binaphthyl moiety afforded a-hydrazino acid derivatives with high stereoselectivity in reactions with achiral oxazolidinone anions. ... 

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