p. 566

1. Common Names of Simple Aldehydes and Ketones p. 566

2. Common Names of Carbonyl substituents p. 566

3. Preparation of Aldehydes and Ketones : Review • Oxidation of 1 alcohols to aldehydes: • a. PCC • b. Dess-Martin Periodinane p. 567

4. Preparation of Aldehydes and Ketones : Review • Oxidation of 1 alcohols to aldehydes: • PCC • b. Dess-Martin Periodinane p. 567

5. Preparation of Aldehydes and Ketones : Review • 2. Oxidation of 2 alcohols to ketones: • a. CrO3 , H2SO4 • b. K2Cr2O7, H2SO4 • c. PCC • d. Dess - Martin p. 567

6. Preparation of Aldehydes and Ketones : Review • 2. Oxidation of 2 alcohols to ketones: • a. CrO3 , H2SO4 • b. K2Cr2O7, H2SO4 • c. PCC • d. Dess - Martin p. 567

7. Preparation of Aldehydes and Ketones : Review • 3. Aryl aldehydes and ketones: • Friedel – Crafts Acylation p. 568

8. Preparation of Aldehydes and Ketones : Review • 3. Aryl aldehydes and ketones: • Friedel – Crafts Acylation p. 568

9. Preparation of Aldehydes and Ketones: New • From Acid Chlorides via Acyl Transfer • Using R2CuLi (Section 16.4) p. 568

10. Preparation of Aldehydes and Ketones: New • From Acid Chlorides via Acyl Transfer • Using R2CuLi (Section 16.4) • 2. From Esters • Reduction with DIBAH (Section 16.6) p. 568

11. Oxidation of Aldehydes : Review • a. CrO3, H2SO4 • b. K2Cr2O7, H2SO4 p. 568

12. Oxidation of Aldehydes : Review • a. CrO3, H2SO4 • b. K2Cr2O7, H2SO4 p. 568

13. Nucleophilic Additions to Aldehydes and Ketones • I. Reactivity • 1. Aldehydes vs. ketones • 2. Aromatic vs. aliphatic Fig. 14-3, p. 571

14. p. 571

15. Nucleophilic Additions to Aldehydes and Ketones • I. Reactivity • 1. Aldehydes vs. ketones • 2. Aromatic vs. aliphatic • 3. The Burgi – Dunitz angle Fig. 14-3, p. 571

16. Nucleophilic Additions to Aldehydes and Ketones Fig. 14-3, p. 571

17. The Burgi-Dunitz(-Lehn-Wipff) Angle: Molecular orbital representaiton Tetrahedron 1974 30 (12): 1563–1572.

18. Nucleophilic Additions to Aldehydes and Ketones • II. Types of Nucleophiles • 1. Anionic • 2. Neutral Fig. 14-3, p. 571

19. Nucleophilic Additions to Aldehydes and Ketones • II. Types of Nucleophiles • 1. Anionic • 2. Neutral • i. Water • ii. Alcohols • iii. 1 amines • iv. 2 amines Fig. 14-3, p. 571

20. Professor Gilbert Stork Stork was born in Brussels, Belgium, and received his secondary education in France. The B.S. (1942) and Ph.D. (1945) were obtained at the Universities of Florida and Wisconsin respectively. He was on the Harvard faculty (1946-53), then joined the Columbia faculty where he was instrumental in building its strong organic group and is currently Eugene Higgins Professor Emeritus. Stork's many awards include the ACS Award in Pure Chemistry (1957), the ACS Award for Creative Work in Synthetic Organic Chemistry (1967), the Arthur C. Cope Award (1980), the Willard Gibbs Medal (1982), the National Medal of Science (1982), the Tetrahedron Prize (1985), the Roger Adams Award (1991) and the Wolf Prize (1996).In 2001 he published the first completely stereoselective total synthesis of quinine. http://chem.tufts.edu/AMichael-Bio.html

21. Reactions of Ylides with Aldehydes • The Wittig Reaction • 1. Generation and nature of ylides • 2. The Metathesis reaction • a. Stereochemistry Fig. 14-3, p. 571

22. The Truth about the Wittig reaction J. Am. Chem. Soc. 1973, 95, 5778.

23. Reactivity of a,b-unsaturated carbonly compounds • 1. Electrophilic sites • Hard-soft acid-base theory • Examples Fig. 14-3, p. 571

24. p. 589

25. Professor Author Michael Born in Buffalo NY in 1855, he studied chemistry at Heidelberg under Robert Bunsen (1811-1899) and at Berlin under August Wilhelm Hofmann (1818-1892). He then studied under Adolphe Wurtz (1817-1884) in Paris and Dimitri Ivanoviè Mendeleev (1834-1907) in St Petersburg, but never bothered to take a degree. He was made Professor of Chemistry at Tufts College near Boston. In 1889, he married one of his most brilliant students, (1857-1904), one of the few women organic chemists Helen Cecilia DeSilver Abbott in this period. After a failed attempt to run the chemistry department at Clark University in Worcester, Massachusetts, in 1891, he spent three years working with his wife in his private laboratory on the Isle of Wight before returning to Tufts. After he retired from Tufts in 1907, Michael set up another private laboratory at Newton Center near Boston. In 1912 he was appointed a Professor of Chemistry, without lecturing duties, at Harvard University. Arthur Michael died in 1942. http://chem.tufts.edu/AMichael-Bio.html

26. Professor Henry Gilman (May 9, 1893 – Nov 7, 1986). Born in Boston, Massachusetts, he received  his B. S. (1915), an M. S.  (1916), and a Ph.D. (1918) in Chemistry from Harvard University. For his pre-doctoral work he studied in Europe at Zurich Polytechnikum, the Sorbonne in Paris, and at Oxford in London. Dr. Gilman began his career at the University of Illinois as an Instructor of Chemistry in 1919. Later that year, he accepted the position of Assistant Professor (1919 - 1920) at Iowa State College (University). By 1923 Dr. Gilman had been promoted to full Professor teaching all the Organic Chemistry courses at Iowa State College. His main area of research was in the Organometallic Chemistry area of Grignard reagents where he developed numerous Organometallic reagents, including the dialkyllithium reagent which bears his name. http://www.lib.iastate.edu/spcl/exhibits/150/template/gilman.html

27. End