P branched a amino phosphonates

Three years later. List and coworkers extended their phosphoric acid-catalyzed dynamic kinetic resolution of enoUzable aldehydes (Schemes 18 and 19) to the Kabachnik-Fields reaction (Scheme 33) [56]. This transformation combines the differentiation of the enantiomers of a racemate (50) (control of the absolute configuration at the P-position of 88) with an enantiotopic face differentiation (creation of the stereogenic center at the a-position of 88). The introduction of a new steri-cally congested phosphoric acid led to success. BINOL phosphate (R)-3p (10 mol%, R = 2,6- Prj-4-(9-anthryl)-C H3) with anthryl-substituted diisopropylphenyl groups promoted the three-component reaction of a-branched aldehydes 50 with p-anisidine (89) and di-(3-pentyl) phosphite (85b). P-Branched a-amino phosphonates 88 were obtained in high yields (61-89%) and diastereoselectivities (7 1-28 1) along with good enantioselectivities (76-94% ee) and could be converted into... 

List and coworkers reported an excellent approach to the enantioselective synthesis of P branched a amino phosphonates, which involved the extension of the dynamic kinetic resolution strategy (Scheme 3.53) [110] that was previously applied to the enantioselective reductive amination of a branched aldehydes by his research group (see Scheme 3.45). The method combines dynamic kinetic resolution with the parallel creation of an additional stereogenic center. They successfully accomplished the direct three component Kabachnik Fields reaction of 1 equiv each of the racemic aldehyde, p anisidine, and di(3 pentyl)phosphite in the presence of newly developed chiral phosphoric acid It. The corresponding p branched a amino phosphonates were obtained in high diastereo and enantioselectivities, especially for the aldehydes bearing a secondary alkyl group at the a position. 

Scheme 3.53 Enantioselective synthesis of p branched a amino phosphonates by Kabachnik Fields reaction.

Reductive amination of a-branched ketones and p-anisidine using Hantzsch ester as a hydride source and chiral Bronsted acid, TRIP, as a catalyst gave chiral p-branched amine (Scheme 5.17) [58]. This catalyst system was extended to three-component Kabachnik-Eields reaction, which uses phosphite as nucleophile instead of hydride, to give p-branched a-amino phosphonate [59]. Reductive ami-nation of p-keto ester or p-keto nitrile with trichlorosilane as a hydride source... 

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