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Synthesis Zirconium catalysts

In 1997, the first truly catalytic enantioselective Mannich reactions of imines with silicon enolates using a novel zirconium catalyst was reported [9, 10]. To solve the above problems, various metal salts were first screened in achiral reactions of imines with silylated nucleophiles, and then, a chiral Lewis acid based on Zr(IV) was designed. On the other hand, as for the problem of the conformation of the imine-Lewis acid complex, utilization of a bidentate chelation was planned imines prepared from 2-aminophenol were used [(Eq. (1)]. This moiety was readily removed after reactions under oxidative conditions. Imines derived from heterocyclic aldehydes worked well in this reaction, and good to high yields and enantiomeric excesses were attained. As for aliphatic aldehydes, similarly high levels of enantiomeric excesses were also obtained by using the imines prepared from the aldehydes and 2-amino-3-methylphenol. The present Mannich reactions were applied to the synthesis of chiral (3-amino alcohols from a-alkoxy enolates and imines [11], and anti-cc-methyl-p-amino acid derivatives from propionate enolates and imines [12] via diastereo- and enantioselective processes [(Eq. (2)]. Moreover, this catalyst system can be utilized in Mannich reactions using hydrazone derivatives [13] [(Eq. (3)] as well as the aza-Diels-Alder reaction [14-16], Strecker reaction [17-19], allylation of imines [20], etc. [Pg.144]

The Stacker reaction has been employed on an industrial scale for the synthesis of racemic a-amino acids, and asymmetric variants are known. However, most of the reported catalytic asymmetric Stacker-type reactions are indirect and utilize preformed imines, usually prepared from aromatic aldehydes [24]. A review highlights the most important developments in this area [25]. Kobayashi and coworkers [26] discovered an efficient and highly enantioselective direct catalytic asymmetric Stacker reaction of aldehydes, amines, and hydrogen cyanide using a chiral zirconium catalyst prepared from 2 equivalents of Zr(Ot-Bu)4, 2 equivalents of (R)-6,6 -dibromo-1, l -bi-2-naphthol, (R)-6-Br-BINOL], 1 equivalent of (R)-3,3 -dibromo-l,l -bi-2-naphthol, [(R)-3-Br-BINOL, and 3 equivalents of N-methylimida-zole (Scheme 9.17). This protocol is effective for aromatic aldehydes as well as branched and unbranched aliphatic aldehydes. [Pg.286]

Bis(benzamidinate)zirconium catalysts, for stereoselective propylene polymerization, 11, 708 Bis(r -benzene)tungsten, as metal vapor synthesis milestone, 1, 236... [Pg.63]

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)... [Pg.136]

A. H. Hoveyda, Chiral Zirconium Catalysts for Enantioselective Synthesis, in Titanium and Zirconium in Organic Synthesis (Ed. I. Marek, Wiley-VCH, Weinheim, 2002, pp. 180-229). [Pg.176]

Kobayashi S, Ishitani H (2000) Novel binuclear chiral zirconium catalysts used in enantioselective strecker reactions. Chirality 12 540-543 Kobayashi S, Ishitani H, Nagayama S (1995) Synthesis 1995 1195 Kobayashi S, Ishitani H, Ueno M (1998) J Am Chem Soc 120 431 Kobayashi S, Kobayashi J, Ishitani H, Ueno M (2002) Catalytic enantioselective addition of propionate units to imines an efficient synthesis of anti-alpha-methyl-beta-amino acid derivatives. Chem Eur J 8 4185 1190 Krohn K, Kirst HA, Maag H (eds) (1993) Antibiotics and antiviral compounds. VCH, Weinheim... [Pg.249]

A binuclear zirconium catalyst, prepared in situ from Zr(0-t-Bu)4, (/ )-6-Br-BINOL, and () )-3-Br-BINOL has been used in catalytic and enantioselective synthesis of a-aminonitriles 98 as shown in Eq. (45) [46]. [Pg.879]

The use of a chiral zirconium catalyst may extend these reactions to asymmetric synthesis. An example that achieved a chiral transfer at a very high level was reported, but a Grignard reagent was involved in only a transient species, not in the final product [74]. [Pg.40]

Ishitani, H., Komiyama, S., Hasegawa, Y., Kobayashi, S. Catalytic Asymmetric Strecker Synthesis. Preparation of Enantiomerically Pure a-Amino Acid Derivatives from Aidimines and Tributyitin Cyanide or Achirai Aidehydes, Amines, and Hydrogen Cyanide Using a Chiral Zirconium Catalyst. J. Am. Chem. Soc. 2000,122, 762-766. [Pg.690]

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Chiral Zirconium Catalysts for Enantioselective Synthesis

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