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15.6 Reactions of Alcohols: A Review and a Preview. Table 15.2 Review of Reactions of Alcohols. reaction with hydrogen halides reaction with thionyl chloride reaction with phosphorous tribromide acid-catalyzed dehydration conversion to p -toluenesulfonate esters.
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Table 15.2 Review of Reactions of Alcohols reaction with hydrogen halides reaction with thionyl chloride reaction with phosphorous tribromide acid-catalyzed dehydration conversion to p-toluenesulfonate esters
New Reactions of Alcohols in This Chapter conversion to ethers esterification esters of inorganic acids oxidation cleavage of vicinal diols
RCH2O CH2R H OH RCH2O CH2R H OH Conversion of Alcohols to Ethers acid-catalyzed referred to as a "condensation" equilibrium; most favorable for primary alcohols H+ +
H2SO4, 130°C Example 2CH3CH2CH2CH2OH CH3CH2CH2CH2OCH2CH2CH2CH3 (60%)
•• OSO2OH H CH3CH2O •• H + – + OSO2OH CH3CH2O •• H Mechanism 44 Mechanism of Formation of Diethyl Ether Step 1: H
H H CH3CH2 CH3CH2 O + O •• + •• •• + CH3CH2O H •• H •• H CH3CH2O •• H Mechanism 44 Mechanism of Formation of Diethyl Ether Step 2:
CH3CH2 CH3CH2 + + CH3CH2O CH3CH2O •• •• •• H •• OCH2CH3 H •• H OCH2CH3 •• + H Mechanism 44 Mechanism of Formation of Diethyl Ether Step 3:
via: H •• + O •• O •• H O H Intramolecular Analog HOCH2CH2CH2CH2CH2OH reaction normally works well only for5- and 6-membered rings H2SO4 130° (76%)
O O R'COH R'COR Esterification condensation Fischer esterification acid catalyzed reversible H+ + + ROH H2O
O + COH CH3OH H2SO4 O COCH3 Example of Fischer Esterification 70% yield based on benzoic acid 0.1 mol 0.6 mol + H2O
O O R'CCl R'COR Reaction of Alcohols with Acyl Chlorides high yields not reversible when carried outin presence of pyridine + + ROH HCl
CH3CH2 O O2N OH CCl CH3 CH3CH2 O NO2 OC CH3 Example + pyridine (63%)
O O O O R'COCR' R'COR R'COH Reaction of Alcohols with Acid Anhydrides analogous to reaction with acyl chlorides + + ROH
O O + C6H5CH2CH2OH F3CCOCCF3 O C6H5CH2CH2OCCF3 Example pyridine (83%)
– + HONO2 (HO)2SO2 (HO)3P O CH3OH + HONO2 CH3ONO2 + H2O (66-80%) Esters of Inorganic Acids ROH + HOEWG ROEWG + H2O EWG is an electron-withdrawing group
O O Secondary alcohols from H2O O OH RCHR' RCR' Oxidation of Alcohols Primary alcohols RCH2OH RCH RCOH
Typical Oxidizing Agents Aqueous solution Mn(VII) Cr(VI) KMnO4 H2CrO4 H2Cr2O7
H OH H2SO4 Na2Cr2O7 H2O O O (85%) Aqueous Cr(VI) FCH2CH2CH2CH2OH H2SO4 K2Cr2O7 H2O FCH2CH2CH2COH (74%)
•• H H O •• O H O C CrOH O O O C O Mechanism H involves formation and elimination of a chromate ester C HOCrOH OH
Nonaqueous Sources of Cr(VI) All are used in CH2Cl2 Pyridinium dichromate (PDC) (C5H5NH+)2 Cr2O72– Pyridinium chlorochromate (PCC) C5H5NH+ ClCrO3–
N + H O CH3(CH2)5CH Example: Oxidation of a primary alcohol with PCC ClCrO3– PCC CH3(CH2)5CH2OH CH2Cl2 (78%)
(CH3)3C CH2OH O (CH3)3C CH Example: Oxidation of a primary alcohol with PDC PDC CH2Cl2 (94%)
+ + NAD + + + H O NAD CH3CH H Enzyme-catalyzed CH3CH2OH alcohol dehydrogenase
_ _ O O O O H P P O O O O O NH2 HO N + C OH N HO HO N O NH2 Figure 15.2 Structure of NAD+ nicotinamide adenine dinucleotide (oxidized form)
O H CNH2 + H + N R Enzyme-catalyzed + CH3CH2OH +
O O CNH2 CH3CH Enzyme-catalyzed H H •• N R
HIO4 + C C C C O O HO OH Cleavage of Vicinal Diols by Periodic Acid
CH3 CH CCH3 HO OH O O + CH CH3CCH3 (83%) Cleavage of Vicinal Diols by Periodic Acid HIO4
OH O O HCCH2CH2CH2CH OH Cyclic Diols are Cleaved HIO4