SCC0582 - CHEMISTRY OF HETEROCYCLIC COMPOUNDS

1. Structure of heterocyclic systems (4 hours). Nomenclature of single three-to-seven-membered heterocyclic rings. Nomenclature of heteropolycyclic systems. Electronic distribution of furan, pyrrole, thiophene and their benzo-fused derivatives, pyridine and its benzo-fused derivatives; pyrylium salts; imidazole, oxazole, thiazole, pyrazole, isoxazole; diazines and their benzo-fused derivatives; polyazoles e polyazines. Basicity of nitrogen-containing heterocyclic systems. 2. Reactivity of heterocyclic systems (12 hours). Reactivity of heteroaromatic systems: behaviour vs electrophiles and nucleophiles, reduction and oxidation, behavior as alkenes, reactivity at the pseudo benzylic position. Hydroxy derivatives of heteroaromatic systems: keto-enol tautomerism, reactivity as nucleophiles. Amino derivatives of heteroaromatic systems: basicity, diazotization reaction. Nitrogen-containing heterocycles N-oxides: synthesis, electronic distribution, reactivity. Quaternary salts of aromatic nitrogen-containing heterocycles. 3. Synthetic strategies for heterocycles (24 hours). Intramolecular nucleophilic substitutions, intramolecular aromatic electrophilic substitutions, intramolecolar condensation, cyclocondensation. Transition metal-catalyzed reactions for functionalization and synthesis of heterocyclic compounds: Heck reactions, cross-coupling reactions, Wacker-type reactions, Buchwald-Hartwig reaction, Chan-Lam reaction. Domino reaction for the synthesis of functionalized hetero(poly)cyclic compounds. Carbonylation reactions. 4. Ring-opening reactions of heterocycles (4 hours). Ring-opening reactions of five-membered mono-heterocyclic rings, 1,2-dihetero and 1,3-dihetero. Reactions for the conversion of different kind of heterocycles. Mesoionic compounds. 5. Some classes of heterocyclic compounds (4 hours). Nucleosides, nucleotides, nucleic acids, -lactam antibiotics, porphyrins, phtalocyanines, indigoid dyes.