Acid catalysis, bifunctional combined

Abstract The concept of bifunctional acid catalysis is very helpful for inventing new catalytic asymmetric reactions. Compared with single functional acid catalysts, cooperative effect of two acid components has the potential to fine tune the reactivity as well as the selectivity of desired reaction pathways. This chapter focuses on some representative examples on the recent developments of bifunctional acid catalysis, including combined acid catalysis and other cooperative acid catalysis. 

Keywords Asymmetric synthesis Bifunctional acid catalysis Combined acid catalysis Cooperative acid catalysis Designer acid... 

Beyond the concept of combined acid catalysis, there are also many other bifunctional acid catalysts interacting with nucleophiles and electrophiles simultaneously, and thus benefiting through such cooperative effect. Selected examples on Lewis acid/hydrogen bonding cooperative catalysis and Lewis acid/transition-metal... 

The remaining part of this chapter will highlight some recent examples in which bifunctional acid catalysis does not involve combined acid catalysis, namely, two acid components (either Lewis acid, hydrogen bonding, or transition metal) are... 

Later, the same group succeeded in achieving a cascade Michael/nitro-Mannich/ acetalization reaction by the combination of covalent enamine catalysis and noncovalent bifunctional base/Br0nsted acid catalysis [32]. The fuUy substituted piperidines with diverse substitution patterns were prepared efficiently starting from simple aliphatic aldehydes, Ts-protected imines, and trani -P-nitro alkenes (Scheme 9.36). This finding effectively incorporated prolinol silyl ether-catalyzed Michael addition of aldehyde 65 to nitroalkene 75 and valine-derived bifunctional thiourea-mediated nitro-Mannich reaction of y-nitro aldehyde 106 to imine 105 in the cascade process, providing a complementary contribution to the well-known single catalyst-promoted triple cascade reactions and two catalyst-promoted reaction cascades. 

An interesting bifunctional system with a combination of In(OTf)3 and benzoyl-quinine 65 was developed in p-lactam formation reaction from ketenes and an imino ester by Lectka [Eq. (13.40)]. High diastrereo- and enantioselectivity as well as high chemical yield were produced with the bifunctional catalysis. In the absence of the Lewis acid, polymerization of the acid chloride and imino ester occurred, and product yield was moderate. It was proposed that quinine activates ketenes (generated from acyl chloride in the presence of proton sponge) as a nucleophile to generate an enolate, while indium activates the imino ester, which favors the desired addition reaction (66) ... 

Medium pore aluminophosphate based molecular sieves with the -11, -31 and -41 crystal structures are active and selective catalysts for 1-hexene isomerization, hexane dehydrocyclization and Cg aromatic reactions. With olefin feeds, they promote isomerization with little loss to competing hydride transfer and cracking reactions. With Cg aromatics, they effectively catalyze xylene isomerization and ethylbenzene disproportionation at very low xylene loss. As acid components in bifunctional catalysts, they are selective for paraffin and cycloparaffin isomerization with low cracking activity. In these reactions the medium pore aluminophosphate based sieves are generally less active but significantly more selective than the medium pore zeolites. Similarity with medium pore zeolites is displayed by an outstanding resistance to coke induced deactivation and by a variety of shape selective actions in catalysis. The excellent selectivities observed with medium pore aluminophosphate based sieves is attributed to a unique combination of mild acidity and shape selectivity. Selectivity is also enhanced by the presence of transition metal framework constituents such as cobalt and manganese which may exert a chemical influence on reaction intermediates. 

Later, Melchiorre and coworkers accomplished a challenging direct vinylogous aldol reaction of 3-methyl-2-(yclohexen-l-one with a-keto esters utilising a bifunctional primary amine-thiourea. Catalyst 48 based on the (l/ ,2/ )Kiiphenylethylene-l,2-diamine backbone combined with benzoic acid as cocatalyst promoted the reaction by means of a concomitant activation of both reacting partners (see TS in Scheme 19.55), the ketone via dienamine catalysis and the ester via hydrogen-bonding interactions (Scheme 19.55). 

The use of lanthanide complexes in asymmetric catalysis was pioneered by Danishefsky s group with the hetero-Diels-Alder reaction,and their utility as chiral Lewis acid catalysts was shown by Kobayashi. The Brpnsted base character of lanthanide-alkoxides has been used by Shibasaki for aldol reactions, cyanosilylation of aldehydes and nitroaldol reactions.The combination of Lewis acid and Brpnsted base properties of lanthanide complexes has been exploited in particular by Shibasaki for bifunctional asymmetric catalysis. These bimetallic lanthanide-main-group BINOL complexes are synthesized according to the following routes ... 

Zeolites are widely applied in the processing of oil Acid-catalyzed reactions of hydrocarbons proceed through carbenium ion intermediates. Bifunctional catalysis combines the catalytic properties of metal particles and of zeolites. 

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