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A Very Efficient Cerium(IV) Ammonium Nitrate Catalyzed, Four‐Component Synthesis of Tetrahydropyridines and Its Application in the Concise Generation of Functionalized Homoquinolizine Frameworks
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Citations
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References
2009
Year
Combinatorial ChemistryInorganic ChemistryChemical EngineeringDiversity Oriented SynthesisEngineeringFour-component ReactionOrganic ChemistryFour‐component SynthesisVery Efficient CeriumCatalysisFunctionalized Homoquinolizine FrameworksChemistrySynthetic ChemistryRing-closing Metathesis ReactionsAmmonium Nitrate
Molecular diversity: A cerium(IV) ammonium nitrate (CAN) catalyzed, four-component reaction from very simple acyclic starting materials afforded densely substituted tetrahydropyridines, which were transformed into homoquinolizines by using a gamma-alkylation-ring-closing metathesis (RCM) sequence (see scheme).The cerium(IV) ammonium nitrate (CAN) catalyzed, four-component reaction between primary aliphatic amines, beta-ketoesters or beta-ketothioesters, alpha,beta-unsaturated aldehydes, and alcohols provided a very efficient and atom-economical access to substituted 6-alkoxy-2-methyl-1,4,5,6-tetrahydropyridines. These materials were then transformed into homoquinolizine derivatives in excellent yields by using a two-step sequence comprised of regioselective gamma-deprotonation-allylation and ring-closing metathesis reactions. The possibility of displacing the alkoxy group by allylsilane nucleophiles, presumably through a vinylogous acyliminium intermediate species, was also demonstrated.
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