Allylic substitution, Baylis-Hillman carbonates

Chen and coworkers published a formal [3 + 3]-type reaction to give highly substituted cyclohexenes 8. This domino process consists of an allylic-allylic alkylation of an a,a-dicyanoalkene derived from 1-indanone and Morita-Baylis-Hillman carbonates, following an intramolecular Michael addition, by employing dual orga-nocatalysis of commercially available modified cinchona alkaloid (DHQD)2AQN If (hydroquinidine (anthraquinone-l,4-diyl) diether) and (S)-BINOL. The cyclic adducts... 

Baylis-Hillman carbonate is a good substrate for asymmetric allylic substitution reaction, and various nucleophiles have been involved in this transformation. As shown in Scheme 9.36, the intermediate 72 (mechanistically formed by Michael... 

Recently, 4 was reported to be an excellent catalyst for the enantioselective substitution of Morita-Baylis-Hillman carbonates with allylamines [21]. Only carbonates with an aromatic group gave the desired enantioenriched N-allyl-P-amino-methylene esters (Scheme 6.6). Ring-closing metathesis of the products of the allylation reaction was shown to result in chiral 2,5-dihydropyroles of importance as starting materials for the synthesis of products of biological and medical interest. 

The asymmetric allylic substitution reaction of Morita-Baylis-Hillman carbonates (226) with diphenyl phosphite in the presence of chiral multifunctional thiourea-phosphine catalyst (228) provided allylic phosphites (227) in high yields and with excellent enantioselectivities (Scheme 76). 

The Morita-Baylis-Hillman reaction is, in general, a carbon-carbon bondforming reaction of an a,(3-unsaturated compound with an aldehyde mediated by an organic nucleophilic base resulting in the formation of an allylic alcohol. Morita reported the use of a phosphine as catalyst and Baylis and Hillman used a tertiary amine. Variation of the electrophile to electron-deficient alkenes in a Michael-Michael elimination sequence leads to homo- and heterodimerisation and is known as the Rauhut-Currier reaction. The electrophilic aldehyde could be substituted by an imine or derivative in the aza-Morita-Baylis-Hillman reaction. Recently, there has been an increase in the use of this reaction for the construction of many different targets using many different amine derived catalysts. Scheme 2.2 shows a general view of this reaction and the accepted mechanism. ... 

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