1. Chapter 30 Orbitals and Organic Chemistry: Pericyclic Reaction Polar mechanism Radical mechanism Concerted process Electrocyclic reaction Cycloaddition Sigmatropic rearrangement

7. 1,3,5-hexatriene

9. Woodward-Hoffmann rules A pericyclic reaction can take place only if the symmetries of the reactant MOs are the same as the symmetries of the product MOs. In other words, the lobes reactant MOs must be of the correct algebraic sign for bonding to occur in the transition state leading to product. If the symmetries of both reactant and product orbitals match up, or “correlate”, the reaction is said to be symmetry-allowed. If the symmetries of reactant and product orbitals don’t correlate, the reaction is symmetry-disallowed.

10. Kenichi Fukui Frontier orbitals Highest occupied molecular orbital (HOMO) Lowest unoccupied molecular orbital (LUMO)

12. An electrocyclic reaction is a pericyclic process that involves the cyclization of a conjugated polyene. One  bond is broken, the other  bonds change position, a new  bond is formed, and a cyclic compound results.

13. Stereochemistry The most striking feature of electrocyclic reactions

15. Outermost sign

22. Polyenes with an even( 偶数 ) number of electron pairs undergo thermal electrocyclic reactions in a conrotatory sense, Whereas polyenes with an odd number of electron pairs undergo the same reactions in a disrotatory sense.