Reaction, asymmetric

Izumi, Y. Tai, A. 1977, Stereodifferentiating Reactions The Nature of Asymmetric Reactions, Kodansha Ltd. Tokyo, Japan, Academic Press New York London... 

Asymmetric reactions with formation and participation of heterocycles 98JCS(P1)1151,98JCS(P1)1439, 98JCS(P1)3101, 99JCS(P1)1109. 

Asymmetric reactions using nonnatural chiral auxiliaries with participation and formation of heterocycles 98YGK386. 

Syntheses and transformations of various heterocycles in new asymmetric reactions utilizing carbanions 99YZ114. 

Catalytic asymmetric synthesis with participation and formation of heterocycles (including asymmetric phase transfer reactions and asymmetric reactions with chiral Lewis catalysts) 93MI1. 

Synthesis of novel optically active cyclic phosphine ligands and their use in catalytic asymmetric reactions 98YGK511. 

C, 92% ee at -20 °C, 88% ee at 0°C in the reaction of acrolein and cyclopen-tadiene). This is unusual for metal-catalyzed asymmetric reactions, with only few similar examples. The titanium catalyst 10 acts as a suitable chiral template for the conformational fixing of a,/ -unsaturated aldehydes, thereby enabling efficient enantioface recognition, irrespective of temperature. 

Titanium (IV)-l,l -bi-2-naphthol complexes derived from Ti(Oi-Pr)4 were used in some asymmetric reactions. For example, (a) Aoki, S. Mikami, K. Terada,... 

The development of metal-catalyzed asymmetric 1,3-dipolar cycloaddition reactions is probably going to continue during the next decade. High level of control of the reactions of nitrones has been obtained, and for these reactions one of the next challenges is to explore new substrates that are designed for application in synthesis. The development of metal-catalyzed asymmetric reactions of the other... 

The l ,J -DBFOX/Ph-transition metal aqua complex catalysts should be suitable for the further applications to conjugate addition reactions of carbon nucleophiles [90-92]. What we challenged is the double activation method as a new methodology of catalyzed asymmetric reactions. Therein donor and acceptor molecules are both activated by achiral Lewis amines and chiral Lewis acids, respectively the chiral Lewis acid catalysts used in this reaction are J ,J -DBFOX/Ph-transition metal aqua complexes. 

With an appropriate chiral reactant, high enantioselectivity can be achieved, as a result of asymmetric induction If both reactants are chiral, this procedure is called the double asymmetric reaction and the observed enantioselectivity can be even higher. 

Perhaps the most successful industrial process for the synthesis of menthol is employed by the Takasago Corporation in Japan.4 The elegant Takasago Process uses a most effective catalytic asymmetric reaction - the (S)-BINAP-Rh(i)-catalyzed asymmetric isomerization of an allylic amine to an enamine - and furnishes approximately 30% of the annual world supply of menthol. The asymmetric isomerization of an allylic amine is one of a large and growing number of catalytic asymmetric processes. Collectively, these catalytic asymmetric reactions have dramatically increased the power and scope of organic synthesis. Indeed, the discovery that certain chiral transition metal catalysts can dictate the stereo-... 

In a catalytic asymmetric reaction, a small amount of an enantio-merically pure catalyst, either an enzyme or a synthetic, soluble transition metal complex, is used to produce large quantities of an optically active compound from a precursor that may be chiral or achiral. In recent years, synthetic chemists have developed numerous catalytic asymmetric reaction processes that transform prochiral substrates into chiral products with impressive margins of enantio-selectivity, feats that were once the exclusive domain of enzymes.56 These developments have had an enormous impact on academic and industrial organic synthesis. In the pharmaceutical industry, where there is a great emphasis on the production of enantiomeri-cally pure compounds, effective catalytic asymmetric reactions are particularly valuable because one molecule of an enantiomerically pure catalyst can, in principle, direct the stereoselective formation of millions of chiral product molecules. Such reactions are thus highly productive and economical, and, when applicable, they make the wasteful practice of racemate resolution obsolete. 

Scheme A1. Representative catalytic asymmetric reactions (references on scheme).

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