Physical and Chemical Properties and Reactions of Alkenes and Alkynes CHAPTER NINE TERRENCE P. SHERLOCK BURLINGTON COUNTY COLLEGE 2004 CHE-240 Unit 3.

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Presentation transcript:

Physical and Chemical Properties and Reactions of Alkenes and Alkynes CHAPTER NINE TERRENCE P. SHERLOCK BURLINGTON COUNTY COLLEGE 2004 CHE-240 Unit 3

Chapter 92 Introduction Alkynes contain a triple bond. General formula is C n H 2n-2 Two elements of unsaturation for each triple bond. Some reactions are like alkenes: addition and oxidation. Some reactions are specific to alkynes. =>

Chapter 93 Nomenclature: IUPAC Find the longest chain containing the triple bond. Change -ane ending to -yne. Number the chain, starting at the end closest to the triple bond. Give branches or other substituents a number to locate their position. =>

Chapter 94 Name these: propyne 5-bromo-2-pentyne =>

Chapter 95 Additional Functional Groups All other functional groups, except ethers and halides have a higher priority than alkynes. For a complete list of naming priorities, look inside the back cover of your text. =>

Chapter 96 Examples 4-methyl-1-hexen-5-yne 4-hexyn-2-ol =>

Chapter 97 Common Names Named as substituted acetylene. methylacetylene isobutylisopropylacetylene =>

Chapter 98 Physical Properties Nonpolar, insoluble in water. Soluble in most organic solvents. Boiling points similar to alkane of same size. Less dense than water. Up to 4 carbons, gas at room temperature. =>

Chapter 99 Electronic Structure The sigma bond is sp-sp overlap. The two pi bonds are unhybridized p overlaps at 90 , which blend into a cylindrical shape. =>

Chapter 910 Bond Lengths More s character, so shorter length. Three bonding overlaps, so shorter. Bond angle is 180 , so linear geometry. =>

Chapter 911 Acidity of Alkynes Terminal alkynes, R-C  C-H, are more acidic than other hydrocarbons. Acetylene  acetylide by NH 2 -, but not by OH - or RO -. More s character, so pair of electrons in anion is held more closely to the nucleus. Less charge separation, so more stable. =>

Chapter 912 Acidity Table =>

Chapter 913 Forming Acetylide Ions H + can be removed from a terminal alkyne by sodium amide, NaNH 2. NaNH 2 is produced by the reaction of ammonia with sodium metal. =>

Chapter 914 Alkynes from Acetylides Acetylide ions are good nucleophiles. S N 2 reaction with 1  alkyl halides lengthens the alkyne chain. =>

Chapter 915 Must be 1  Acetylide ions can also remove H + If back-side approach is hindered, elimination reaction happens via E2. =>

Chapter 916 Addition to Carbonyl Acetylide ion + carbonyl group yields an alkynol (alcohol on carbon adjacent to triple bond). =>

Chapter 917 Add to Formaldehyde Product is a primary alcohol with one more carbon than the acetylide. =>

Chapter 918 Add to Aldehyde Product is a secondary alcohol, one R group from the acetylide ion, the other R group from the aldehyde. =>

Chapter 919 Add to Ketone Product is a tertiary alcohol. =>

Chapter 920 Synthesis by Elimination Removal of two molecules of HX from a vicinal or geminal dihalide produces an alkyne. First step (-HX) is easy, forms vinyl halide. Second step, removal of HX from the vinyl halide requires very strong base and high temperatures. =>

Chapter 921 Reagents for Elimination Molten KOH or alcoholic KOH at 200  C favors an internal alkyne. Sodium amide, NaNH 2, at 150  C, followed by water, favors a terminal alkyne. =>

Chapter 922 Addition of Hydrogen Three reactions: Add lots of H 2 with metal catalyst (Pd, Pt, or Ni) to reduce alkyne to alkane, completely saturated. Use a special catalyst, Lindlar’s catalyst to convert an alkyne to a cis-alkene. React the alkyne with sodium in liquid ammonia to form a trans-alkene. =>

Chapter 923 Lindlar’s Catalyst Powdered BaSO 4 coated with Pd, poisoned with quinoline. H 2 adds syn, so cis-alkene is formed. =>

Chapter 924 Na in Liquid Ammonia Use dry ice to keep ammonia liquid. As sodium metal dissolves in the ammonia, it loses an electron. The electron is solvated by the ammonia, creating a deep blue solution. =>

Chapter 925 Addition of Halogens Cl 2 and Br 2 add to alkynes to form vinyl dihalides. May add syn or anti, so product is mixture of cis and trans isomers. Difficult to stop the reaction at dihalide. =>

Chapter 926 Addition of HX HCl, HBr, and HI add to alkynes to form vinyl halides. For terminal alkynes, Markovnikov product is formed. If two moles of HX is added, product is a geminal dihalide. =>

Chapter 927 HBr with Peroxides Anti-Markovnikov product is formed with a terminal alkyne. =>

Chapter 928 Hydration of Alkynes Mercuric sulfate in aqueous sulfuric acid adds H-OH to one pi bond with a Markovnikov orientation, forming a vinyl alcohol (enol) that rearranges to a ketone. Hydroboration-oxidation adds H-OH with an anti-Markovnikov orientation, and rearranges to an aldehyde. =>

Chapter 929 Enol to Keto (in Acid) Add H + to the C=C double bond. Remove H + from OH of the enol. A methyl ketone =>

Chapter 930 Hydroboration Reagent Di(secondary isoamyl)borane, called disiamylborane. Bulky, branched reagent adds to the least hindered carbon. Only one mole can add. =>

Chapter 931 Hydroboration - Oxidation B and H add across the triple bond. Oxidation with basic H 2 O 2 gives the enol. =>

Chapter 932 Enol to Keto (in Base) H + is removed from OH of the enol. Then water gives H + to the adjacent carbon. An aldehyde =>

Chapter 933 Oxidation of Alkynes Similar to oxidation of alkenes. Dilute, neutral solution of KMnO 4 oxidizes alkynes to a diketone. Warm, basic KMnO 4 cleaves the triple bond. Ozonolysis, followed by hydrolysis, cleaves the triple bond. =>

Chapter 934 Reaction with KMnO 4 Mild conditions, dilute, neutral Harsher conditions, warm, basic =>

Chapter 935 Ozonolysis Ozonolysis of alkynes produces carboxylic acids (Alkenes gave aldehydes and ketones) Used to find location of triple bond in an unknown compound. =>

Chapter 936 POWER POINT IMAGES FROM “ORGANIC CHEMISTRY, 5 TH EDITION” L.G. WADE ALL MATERIALS USED WITH PERMISSION OF AUTHOR PRESENTATION ADAPTED FOR BURLINGTON COUNTY COLLEGE ORGANIC CHEMISTRY COURSE BY: ANNALICIA POEHLER STEFANIE LAYMAN CALY MARTIN