LEJ4Learning

1.Nomenclature: Bicyclic Compounds. (UCIRVINE)

2.Spirocyclic, Polycyclic, & Heterocyclic Compounds.(UCIRVINE)

3.Databases and the Chemical Literature.(UCIRVINE)

4.Stereochemistry: Properties of Stereoisomers.(UCIRVINE)

5.Concepts in Stereochemistry.(UCIRVINE)

6.Stereoselectivity in the Aldol Reaction.(UCIRVINE)

7. Organic Reaction Mechanisms.(UCIRVINE)

8. Reaction Kinetics.(UCIRVINE)

9. Reaction Rates and the Eyring Equation.(UCIRVINE)

10. Linear Free-Energy Relationships.(UCIRVINE)

11. Molecular Orbitals and Aromaticity.(UCIRVINE)

12. Introduction to Pericyclic Reactions.(UCIRVINE)

13. Cycloadditions and Sigmatropic Rearrangements.(UCIRVINE)

14. Functional Group Transformation & Oxidation State.(UCIRVINE)

15. Oxidation & Reduction: Alcohols & Carbonyl Compounds.(UCIRVINE)

16. Stereoselective Reduct.; Mitsunobu & Barton-Mc CombieRxns.(UCIRVINE)

17. The Carbonyl Group in Carbon-Carbon Bond Formation.(UCIRVINE)

18. Claisen Condensation and Michael Addition.(UCIRVINE)

19. Acid-Catalyzed Aldol Reactions and the Mannich Reaction.(UCIRVINE)

20. Enamines, the Wittig Reaction, and Cyclopropanation.(UCIRVINE)

21. Benzoin &Acyloin Condensations. Acyl Anion Equivalents.(UCIRVINE)

22. Retrosynthetic Analysis. Diels-Alder; Robinson Annulation.(UCIRVINE)

23. How Concentration, Stoichiometry, & Solvent Affect Rxns.(UCIRVINE)

24. How Temperature and Other Conditions Affect Reactions.(UCIRVINE)

25. NMR Spectroscopy: How NMR Works. Chemical Shifts.(UCIRVINE)

26. Spin-Spin Coupling in 1H NMR Spectroscopy.(UCIRVINE)

27. Determining Stereochemistry and Regiochemistry by NMR.(UCIRVINE)

28. 13C NMR Spectroscopy. Introduction to 2D NMR.COSY & HMQC.(UCIRVINE)

 

 

 

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