1 / 9

Organic Chemistry Reviews Chapter 11

Organic Chemistry Reviews Chapter 11. Cindy Boulton February 8, 2009. Alcohol vs Ethers. Alcohol CH 3 OH IUPAC: methanol Radiofuntional name: methyl alchol Ether CH 3 OCH 3 IUPAC: methoxymethane Radiofunctional name: dimethyl ether. Alcohol Chemistry and Properties.

natan
Download Presentation

Organic Chemistry Reviews Chapter 11

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Organic Chemistry ReviewsChapter 11 Cindy Boulton February 8, 2009

  2. Alcohol vs Ethers • Alcohol • CH3OH • IUPAC: methanol • Radiofuntional name: methyl alchol • Ether • CH3OCH3 • IUPAC: methoxymethane • Radiofunctional name: dimethyl ether

  3. Alcohol Chemistry and Properties • Determined by –OH group • -OH is a polar covalent bond • Cable of hydrogen bond • Raises boiling point • Strong dipole • Hydrogen has a pKa = 17 • Readily removed by a strong base • Dissolves polar and ionic compounds

  4. Ether Chemistry and Properties • Oxygen has a partial negative charge • Two Carbons attached have a partial positive charge • Charges partially cancelled each other out • Not as polar or reactive • Used as a solvent • Inert: not as reactive

  5. Synthesis of Alcohols • Hydration of alkenes • By aqueous Sulfuric Acid (H+) • Regiochemistry: Markovinkov, incoming hydrogen goes to carbon with more hydrogen’s and forms a stable carbon cation • Stereochemistry: Racemic, an equal amount of new stereocenters (R and S) are formed • Pros: • Sulfuric Acid is cheap • Eliminate multiple steps (easy) • Cons: • Primary R-OH is difficult to make • Skeletal rearrangement is possible, carbocation will rearrange to a higher order

  6. Synthesis of Alcohols • Oxymercuration/Demercuration • Alkene reacts with 1) Hg(OAc)2 2) NaBH4, OH- • Hg has multiple bonds and partial bonds with carbocation • Blocks alkanide migration/skeletal rearrangement • Regiochemistry: Markovinkov • Stereochemistry: Racemic • Pros: • Skeletal rearrangement is blocked • Cons: • Hg is toxic and expensive • 2 Steps and multiple clean up steps • Lower overall yield • Primary Alcohols not likely formed

  7. Synthesis of Alcohols • Hydroboration-oxidation • Alkene reacts with 1) BH3 2) H2O2, OH- • Tranistion State: Boron and Hydrogen bonds to both Carbons, forms a trialkylborane • Regiochemistry: Antimarkovinkov-incoming Hydrogen goes to Carbon with less Hydrogen, Sterics • Stereochemistry: Racemic, Syn addition • Pros: • Can make Primary Alcohol • No Skeletal rearrangement • Cons: • 2 Steps • Costly • Needs clean up

  8. Sulfonates • Good leaving group for SN1, SN2, E1, and E2 reactions • Stable ions and unreactive • Resonance Structure • Strong inductive effect • Alcohol is a bad leaving group but is changed to a have a sulfonate • Triflate (Tf): best • Tosylate (Tf) • Mesylate : worst

  9. Conversion of Alcohols to Alkyl Halides • Alcohol is a poor leaving group, but a halide is a good leaving group for another reaction • Conversion by HX (X = Cl, Br, I), PBr3, and SOCl2 • 1o Alcohol Mechanism • “SN2”- retains stereochemistry, no carbocation intermediate • 3o Alcohol Mechanism • “SN1”- sterics from the –R groups block SN2 reaction • A stable carbocation intermediate is fromed • Product is a racemic mixture with Optical Rotation = 0o • 2o Alcohol Mechanism • Either “SN1” or “SN2” depending on the –R groups • Identified by optical rotation

More Related