Chiral BINOL derived amine

Sasai and coworkers reported that a chiral BINOL derived amine 16a catalyzed asymmetric aza MBH reaction of N tosyl imines with acrolein and alkyl vinyl ketones [22]. The corresponding aza MBH adducts were obtained in good to excellent yields with high enantiomeric excesses (Table 13.4). Replacing the tPr group with other substituents in amine 16a provided less effective catalysts regarding yield or enantioselectivity [23]. 

Chiral Binol-Derived Bifunctional Amine Catalysts... 

In determination of the absolute configuration of a-chiral primary amines, BINOL derivatives were used as chiral derivatizing agent.10 In this procedure, the chiral substrate was derivatized with R and S enantiomers of the 2,-methoxy-l,l -binaphthalene-8-carbaldehyde and the XH spectra of both diastereomers were compared. Comparison of the chemical shift differences of the diastereomers has allowed determination of the absolute configuration of the chiral substrate [5]. 

Arai et al. also reported another BINOL-derived two-center phase-transfer catalyst 31 for an asymmetric Michael reaction (Scheme 6.11) [8b]. Based on the fact that BINOL and its derivatives are versatile chiral catalysts, and that bis-ammonium salts are expected to accelerate the reaction due to the two reaction sites - thus preventing an undesired reaction pathway - catalyst 31 was designed and synthesized from the di-MOM ether of (S)-BINOL in six steps. After optimization of the reaction conditions, the use of 1 mol% of catalyst 31a promoted the asymmetric Michael reaction of glycine Schiff base 8 to various Michael acceptors, with up to 75% ee. When catalyst 31b or 31c was used as a catalyst, a lower chemical yield and selectivity were obtained, indicating the importance of the interaction between tt-electrons of the aromatic rings in the catalyst and substrate. In addition, the amine moiety in catalyst 31 had an important role in enantioselectivity (34d and 34e lower yield and selectivity), while catalyst 31a gave the best results. 

In this chapter, we focus on recent achievements in the enantioselective synthesis of chiral amines using 1,1 bi 2 naphthol (BINOL) derived monophosphoric acid (1) or related phosphoric acids as chiral Bronsted acid catalysts 2, 3], The contents are arranged according to the type of bond forming reaction, including carbon carbon, carbon hydrogen, and carbon heteroatom bond forming reactions, followed by specific reaction types. 

Aromatic ketimines are reduced enantioselectively to amines (50 atm H2/toluene/65°C/24h), using a cooperative catalysis involving Knolker s iron complex and a BINOL-derived hydrogen phosphate auxiliary, with P-NMR evidence supporting the bifunctional catalysis. A phosphine-free chiral cationic ruthenium complex catalyses enantioselective hydrogenation of IV-alkyl ketimines, including many heretofore problematic substrates. 0... 

In 2012, a chiral cinchona alkaloid-derived primary amine was associated by Wang et al. to a (R)-BINOL-derived phosphoric acid to induce a three-component domino Knoevenagel-Michael reaction between isatins, malononitrile, and acetone, providing the corresponding domino products in generally excellent yields and enantioselectivities, as shown in Scheme 2.13. A hypothetic cooperative catalysis can be envisaged to explain these excellent results. 

In general, bulky substituents at the 3,3 -position of the BINOL backbone are required to achieve good selectivities in asymmetric catalysis. This laborious catalyst fine-tuning can be simplified when chiral l,r-binaphthyI-2,2 -disulfonic acid (BINSA, 141) is used instead of the aforementioned BINOL-derived chiral phosphoric acids. Complexation with a suitable achiral amine enables to tune the bulkiness and Brpnsted acidity in situ [98]. Based on this approach, Ishihara and coworkers combined various A-Boc- or A-Cbz-protected imines and acetyl acetone in the presence of BINS A (1 mol%) and 2,6-diphenylpyridine (142, 2mol%) to afford the corresponding Mannich products in excellent yields and enantioselectivities (Scheme 11.31) [98]. However, the cata-... 

Possible racemisation of imines, derivatives of amino acids and R(—)-myrtenal, has been examined by Dufrasne et al.1 After 72 h, no significant effect on chiral purity was observed. For imines being derivatives of chiral primary amines and the a-substituted 8-keto-aldehydes, no evidence of epimerisation has been indicated by the NMR measurements.3 For a series of imines, being derivatives of amino acids or amino acid esters and (R)-BINOL reagents, Chin et al.5 have tested the possibility of epimerization under experiment conditions. It was shown that R S ratio has changed only slightly, and after 24 h, the difference was lower than 10%. 

Enantioselective Diels-Alder reactions proceed smoothly in the presence of a chiral Sc catalyst, prepared in situ from Sc(OTf)3, R)- I )-l,l -bi-2-napluhol [(R)-BINOL], and a tertiary amine in dichloromethane.58 The catalyst is also effective in Diels-Alder reactions of an acrylic acid derivative with dienes (Scheme 14). 

---