Title

1. Title Cycloaddition Electrocyclization Pericyclic Reactions

2. Ethylene Ethylene p-Molecular Orbitals 171 nm 167 kcal/mol IR visible UV 800 nm 400 nm 200 nm

3. Ethylene/Butadiene 1,3-Butadiene from Ethylene

4. Butadiene 1,3-Butadiene p-Molecular Orbitals 214 nm 133 kcal/mol IR visible UV 800 nm 400 nm 200 nm

5. Hexatriene 1,3,5-Hexatriene p-Molecular Orbitals 258 nm 109 kcal/mol IR visible UV 800 nm 400 nm 200 nm

6. Butadiene Orbital Coeffients Butadiene: Orbital Coefficients Frontier Molecular Orbitals FMOs

7. Allyl Cation The Allylic System: Allyl Cation

8. Allyl Radical The Allylic System: Allyl Radical

9. Allyl Anion The Allylic System: Allyl Anion

10. Diels-Alder Cycloaddition: Diels-Alder Reaction An Allowed [4+2] Cycloaddition

11. Diels-Alder Diels-Alder Reaction: The Effect of Electron Withdrawing Groups

12. Allyl Cation DA [4+2]-Cycloaddiitions

13. Diels-Alder Mechanism Diels-Alder Reaction: Mechanism

14. Diels-Alder Endo Effect Secondary Effect Diels-Alder Reaction: The Endo Effect

15. 2+2? light (hn) What About a [2+2] Cycloaddition?

16. 4n+2 Rule Thermally Allowed Cycloadditions 4n+2 Rule 2 A 4 6 S 8 A S LUMOs [4+2]=6 [6+4]=10 [8+6]=14 HOMOs A S A S 4n+2; n=1,2,3,4…..

17. 4n Rule Photochemically Allowed Cycloadditions 4n Rule 2 [2+2]=4 A 4 [4+4]=8 6 [6+6]=12 S 8 [8+8]=16 A S LUMOs HOMOs A S A S 4n; n=1,2,3,4….. and [2+6]=8; [8+4]=12

18. Summary Summary of Cycloadditions Thermal 4n+2 Photochemical 4n

19. Electrocyclizations Electrocyclizations

20. Butadiene-Cyclobutene 1,3-Butadiene-Cyclobutene

21. (E,E)-Butadiene-Cyclobutene (E,E)-1,3-Butadiene-Cyclobutene

22. (E,Z)-Butadiene-Cyclobutene (E,Z)-1,3-Butadiene-Cyclobutene

23. (E,Z,E)-Hexatriene-Cyclohexadiene (E,Z,E)-1,3,5-Hexatriene-Cyclohexadiene

24. (E,Z,E)-Hexatriene-Cyclohexadiene Orbitals (E,Z,E)-1,3,5-Hexatriene-Cyclohexadiene Orbitals

25. Electrocyclization Summary Electrocyclizations

26. Violations “There are none!” Woodward and Hoffmann,The Conservation of Orbital Symmetry Violations