Diphenylprolinol catalyst

On the other hand, Lu et al. have found that the trifluoromethyl substituted sily-lated diphenylprolinol catalyst 56 is more effective than 22a in the process, leading to excellent yields and enantioselectivities for the conjugate addition of linear aldehydes to l,l-bis(benzenesulfonyl)ethylene (93-97% yield, 94% to >99% ee) and 2-aryl-substituted l,l-bis(benzenesulfonyl)ethylene (82-94% yield, 50-88% de, 95% to >99% ee) (Scheme 2.26) [92],... 

Fig. 5.7. Crystal structure of borane complex of a,a-diphenylprolinol oxazaborolidine catalysts. Reproduced from...

The catalyst was prepared by reaction of (iS)-diphenylprolinol with dimethylphosphinite and triethylamine in the presence of carbon tetrachloride. The N-(0,0-dimethylphosphoryl) derivative obtained was treated with an excess of p-anisylmagnesium bromide to give the oxazaphosphinamide catalyst[13]. 

For a recovery of (S)-a,a-diphenylprolinol, which is the hydrolysis product of the CBS-catalyst (S)-5 (and likewise its synthetic precursor ), the aqueous phase is carefully adjusted to pH 10 with concentrated ammonia and extracted with diethyl ether (3 x 50 ml). The combined organic layers are washed with brine (50 mL) and dried over MgS04. Removal of the solvent by rotary evaporation yields 1.68 g (79%) of crude (S)-a,a-diphenylprolinol. This material is dissolved in dichloromethane / methanol 9 1 (3 ml) and filtered over Alox B (act. Ill, 80 g) with dichloromethane / methanol 9 1 as the eluent, to yield 1.64 g (77%) of (S)-a,a-diphenylprolinol as a white solid. 

Asymmetric hydrogenation of alkenes is efficiently catalysed by rhodium complexes with chiral diphosphite and diphosphoramidite ligands derived from BINOL or diphenylprolinol. Choice of a proper achiral backbone is crucial.341 Highly enantioselective hydrogenation of A-protected indoles was successfully achieved by use of the rhodium catalyst generated in situ from [Rh(nbd)2]SbF6 (nbd = norborna-2,5-diene)... 

A diphenylprolinol derivative, having hydrophobic perfluoroalkyl phase tags, has been synthesized and used as a pre-catalyst to generate in situ a fluorous oxaz-aborolidine catalyst for the reduction of prochiral ketones with borohydride. The system afforded high enantioselectivities and the pre-catalyst is easily separated and recycled.272 Reduction of enantiopure A-p-toluenesulfinyl ketimines derived from 2-pyridyl ketones with sodium borohydride affords A-p-toluenesulfinylamines with good yields and diastereoselectivities.273... 

Diphenylprolinol methyl ether (145) catalyses intermolecular Michael addition of simple aldehydes to enones in the absence of solvents with high enantioselectivities (95-99% ee) and significantly lower catalyst loadings (5 mol%) than have been typical in this arena.175... 

Two different approaches can be followed to prepare and use the catalyst. The first is to prepare it in situ by mixing (R)- or (S)-diphenylprolinol (DPP) (4) and a borane complex (Scheme 16.2). This route is advantageous because there is no need to use boronic acids (or boroxines) and to remove water to form the catalyst. Another possible way is to use preformed catalysts, some of which are commercially available from suppliers such as Callery. 

The oxazaborolidine is finally made by heating diphenylprolinol (4) under reflux with a suitable alkyl(aryl)boronic acid or, better, with the corresponding boroxine in toluene in the presence of molecular sieves—the water can also be removed by azeotropic distillation. According to the literature, methyl-oxazaborolidine (Me-CBS) can be either distilled or recrystallized. The key point is that the catalyst must be free from any trace of water or alkyl(aryl)boronic acid because those impurities decrease enantioselection. 

In the case of H-CBS, this catalyst could be prepared by mixing diphenylprolinol with borane-THF (tetrahydrofuran) or borane dimethylsulfide. Despite numerous efforts in many groups to isolate or even characterize H-CBS by nuclear magnetic resonance spectroscopy, all attempts have been unsuccessful. H-CBS is used in situ, and good results can be obtained in many cases. 

The diphenylprolinol silyl ether 45a catalyst was developed by the Hayashfs group for the addition of a-unbranched aldehydes to aryl and alkyl substituted nitroolefins [35]. This catalyst, as well as the perfluoroalkyl derivative 45b [36],... 

Numerous theoretical treatments have been carried out to understand the mode of asymmetric induction of the Corey-Bakshi-Shibata (CBS) reduction, more thoroughly.12 Liotta et al. carried out computational studies to identify the transition states for CBS reductions of various ketones13 (Scheme 4.3k).In the asymmetric reduction of acetophenone with the catalyst (R)-28a, four transition states were found. Of the lowest energy is chairlike transition state A, which would lead to formation of the major enantiomer. In transition state A, the phenyl group of acetophenone occupies an equatorial position that is free from any steric interaction, as it is 5.5 A away from one of the two phenyl groups of the diphenylprolinol ring. On the other hand, transition state B, leading to the... 

Chi Y, Gellman SH (2005) Diphenylprolinol methyl ether a highly enantioselective catalyst for Michael addition of aldehydes to simple enones. Qrg Lett 7 4253 1256... 

This catalytic cascade was first realized using propanal, nitrostyrene and cinnamaldehyde in the presence of catalytic amounts of (9TMS-protected diphenylprolinol ((.S )-71,20 mol%), which is capable of catalyzing each step of this triple cascade. In the first step, the catalyst (S)-71 activates component A by enamine formation, which then selectively adds to the nitroalkene B in a Michael-type reaction (Hayashi et al. 2005). The following hydrolysis liberates the catalyst, which is now able to form the iminium ion of the a, 3-unsaturated aldehyde C to accomplish in the second step the conjugate addition of the nitroalkane (Prieto et al. 2005). In the subsequent third step, a further enamine reactivity of the proposed intermediate leads to an intramolecular aldol condensation. Hydrolysis returns the catalyst for further cycles and releases the desired tetrasubstituted cyclohexene carbaldehyde 72 (Fig. 8) (Enders and Hiittl 2006). 

Problems with the preparation and stability of oxazaborolidine (6) led to the development of a series of B-substituted ox-azaborolidines derived from diphenylprolinol. The B-methyl substituted oxazaborolidine (9a) was first prepared (eq 5) by reaction of diphenylprolinol (1) with methylboronic acid under dehydrating conditions (toluene at 23 °C in the presence of 4 X molecular sieves or toluene at reflux using a Dean-Stark trap) followed by vacuum distillation (0.1 mmHg, 170°C). Based on NMR evidence, the product (mp 74-87 °C) was reported to be a mixture of monomer and dimer. The corresponding B-butyloxazaborolidine (9c), prepared in a similar manner from n-butylboronic acid, was also reported to be a mixture of monomer and dimer. Subsequent investigations demonstrated that the reported dimers were in fact the intermediate (8) and the more stable disproportionation product (10) (eq 6). Furthermore, the presence of (8) or (10) was demonstrated to be deleterious to the enantioselectivity of the catalyst. ... 

Prolinol or diphenylprolinol were found by Corey et al. [87] and Itsuno et al. [88] to catalyze the enantioselective diborane reduction of many ketones. Corey et al. developed this new route greatly, often called CBS reduction (from the names of the authors of Ref. [87]). An oxazaborolidine which is either formed in situ or can be preformed, is the actual catalyst. A mechanistic picture has been proposed [87]. 

Enders et al. elegantly applied diphenylprolinol silyl ether 6a as a catalyst for triple cascade reactions (Scheme 10.18), wherein 6a played the roles ofboth enamine catalyst and iminium catalyst. It should be noted that the four stereocenters were completely controlled[36].Theproposedcatalyticcycleofthe triplecascade isshownin Scheme 10.2. 

The (S)-diphenylprolinol-derived oxazabotohdine with an ethanediolated boron atom is a new catalyst for the as3fmmetric reduction of ketones with BH3 SMe2- 1,3-Cyclo-alkanediones undergo CBS-reduction to provide (3if)-hydroxycycloalkanones. Based on this method a very short synthesis of chiral estrone methyl ether is completed. ... 

A series of bicyclic P-cbiral Ugands for tbe Rh metal has been prepared from (S)-a,a-diphenylprolinol and RPCI2. Various degrees of success are seen with the derived catalysts for asymmetric hydrogenation. ... 

Alkylidenemalonates and malononitriles constitute another class of doubly activated olefins that can be used as highly electrophilic Michael acceptors in this reaction. For example, the Michael addition of aldehydes with these compounds has been reported to proceed with very good yields and enantioselectivities using 0-TMS diphenylprolinol 31a as catalyst (Scheme 2.29). On the other hand, the Michael addition of ketones to alkylidenemalonates has... 

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