Download - Chapter 15 Alcohols, Diols, and Thiols
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Chapter 15Chapter 15Alcohols, Diols, and ThiolsAlcohols, Diols, and Thiols
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15.115.1
Sources of AlcoholsSources of Alcohols
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MethanolMethanol is an industrial chemical is an industrial chemical
end uses: solvent, antifreeze, fuelend uses: solvent, antifreeze, fuel
principal use: preparation of formaldehydeprincipal use: preparation of formaldehyde
MethanolMethanol
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MethanolMethanol is an industrial chemical is an industrial chemical
end uses: solvent, antifreeze, fuelend uses: solvent, antifreeze, fuel
principal use: preparation of formaldehydeprincipal use: preparation of formaldehyde
prepared by hydrogenation of carbon prepared by hydrogenation of carbon monoxidemonoxide
CO + 2HCO + 2H22 CH CH33OHOH
MethanolMethanol
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EthanolEthanol is an industrial chemical is an industrial chemical
Most ethanol comes from fermentationMost ethanol comes from fermentation
Synthetic ethanol is produced by hydrationSynthetic ethanol is produced by hydrationof ethyleneof ethylene
Synthetic ethanol is denatured (madeSynthetic ethanol is denatured (madeunfit for drinking) by adding methanol, benzene,unfit for drinking) by adding methanol, benzene,pyridine, castor oil, gasoline, etc.pyridine, castor oil, gasoline, etc.
EthanolEthanol
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Isopropyl alcohol is Isopropyl alcohol is prepared by hydration of prepared by hydration of propene.propene.
All alcohols with four carbons or fewer are All alcohols with four carbons or fewer are readily available.readily available.
Most alcohols with five or six carbons are Most alcohols with five or six carbons are readily available.readily available.
Other alcoholsOther alcohols
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Hydration of alkenesHydration of alkenes
Hydroboration-oxidation of alkenesHydroboration-oxidation of alkenes
Hydrolysis of alkyl halidesHydrolysis of alkyl halides
Syntheses using Syntheses using Grignard reagentsGrignard reagentsorganolithium reagentsorganolithium reagents
Sources of alcoholsSources of alcohols
Reactions discussed in earlier chapters (Table 15.1)Reactions discussed in earlier chapters (Table 15.1)
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Reduction of aldehydes and ketonesReduction of aldehydes and ketones
Reduction of carboxylic acidsReduction of carboxylic acids
Reduction of estersReduction of esters
Reaction of Grignard reagents with epoxidesReaction of Grignard reagents with epoxides
Diols by hydroxylation of alkenesDiols by hydroxylation of alkenes
Sources of alcoholsSources of alcohols
New methods in Chapter 15New methods in Chapter 15
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15.215.2Preparation of AlcoholsPreparation of Alcohols
bybyReduction of Aldehydes and KetonesReduction of Aldehydes and Ketones
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CC
RR
HH OHOH
HH
CC
RR
HH
OO
Reduction of Aldehydes Gives Primary AlcoholsReduction of Aldehydes Gives Primary Alcohols
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Pt, ethanolPt, ethanol
(92%)(92%)
Example: Catalytic HydrogenationExample: Catalytic Hydrogenation
CHCH33OO CHCH22OHOH
OO
CHCH33OO CHCH ++ HH22
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CC
RR
HH OHOH
R'R'
CC
RR
R'R'
OO
Reduction of Ketones Gives Secondary AlcoholsReduction of Ketones Gives Secondary Alcohols
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(93-95%)(93-95%)
Example: Catalytic HydrogenationExample: Catalytic Hydrogenation
++ HH22
OO
PtPt
ethanolethanol
HH OHOH
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HH::––
HH::––
CC
RR
HH OOHH
HH
CC
RR
HH
OO
CC
RR
HH OOHH
R'R'
CC
RR
R'R'
OO
Retrosynthetic AnalysisRetrosynthetic Analysis
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SodiumSodiumborohydrideborohydride
LithiumLithiumaluminum hydridealuminum hydride
LiLi++
NaNa++ ––
BB
HH
HH
HHHH––
AlAl
HH
HH
HHHH
Metal Hydride Reducing AgentsMetal Hydride Reducing Agents
act as hydride donorsact as hydride donors
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NaBHNaBH44
(82%)(82%)
Examples: Sodium BorohydrideExamples: Sodium Borohydride
CHCH22OHOH
OO
CHCH
OO22NN
methanolmethanol
OO22NN
OO
HH OHOH
(84%)(84%)
NaBHNaBH44
ethanolethanol
AldehydeAldehyde
KetoneKetone
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Lithium aluminum hydrideLithium aluminum hydride
more reactive than sodium borohydridemore reactive than sodium borohydride
cannot use water, ethanol, methanol etc.cannot use water, ethanol, methanol etc.as solventsas solvents
diethyl ether is most commonly used solventdiethyl ether is most commonly used solvent
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Examples: Lithium Aluminum HydrideExamples: Lithium Aluminum Hydride
(84%)(84%)
AldehydeAldehyde
KetoneKetone
OO
CHCH33(CH(CH22))55CHCH CHCH33(CH(CH22))55CHCH22OHOH
1. LiAlH1. LiAlH44
diethyl etherdiethyl ether
2. H2. H22OO
OO
(C(C66HH55))22CHCCHCHCCH33
1. LiAlH1. LiAlH44
diethyl etherdiethyl ether
2. H2. H22OO
(86%)(86%)
OHOH
(C(C66HH55))22CHCHCHCHCHCH33
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neither NaBHneither NaBH44 or LiAlH or LiAlH44
reduces isolatedreduces isolateddouble bondsdouble bonds
HH OHOH
OO
1. LiAlH1. LiAlH44
diethyl etherdiethyl ether
2. H2. H22OO
(90%)(90%)
SelectivitySelectivity
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15.315.3Preparation of Alcohols By ReductionPreparation of Alcohols By Reduction
of Carboxylic Acids and Estersof Carboxylic Acids and Esters
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lithium aluminum hydride is only lithium aluminum hydride is only effective reducing agenteffective reducing agent
Reduction of Carboxylic AcidsReduction of Carboxylic AcidsGives Primary AlcoholsGives Primary Alcohols
CC
RR
HH OHOH
HH
CC
RR
HOHO
OO
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Example: Reduction of a Carboxylic AcidExample: Reduction of a Carboxylic Acid
1. LiAlH1. LiAlH44
diethyl etherdiethyl ether
2. H2. H22OO
COHCOH
OO
CHCH22OHOH
(78%)(78%)
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Lithium aluminum hydride preferred forLithium aluminum hydride preferred forlaboratory reductionslaboratory reductions
Sodium borohydride reduction is too slowSodium borohydride reduction is too slowto be usefulto be useful
Catalytic hydrogenolysis used in industryCatalytic hydrogenolysis used in industrybut conditions difficult or dangerous to duplicate but conditions difficult or dangerous to duplicate in the laboratory (special catalyst, highin the laboratory (special catalyst, hightemperature, high pressuretemperature, high pressure
Reduction of EstersReduction of EstersGives Primary AlcoholsGives Primary Alcohols
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Example: Reduction of a Carboxylic AcidExample: Reduction of a Carboxylic Acid
1. LiAlH1. LiAlH44
diethyl etherdiethyl ether
2. H2. H22OO
(90%)(90%)
OO
COCHCOCH22CHCH33
CHCH33CHCH22OHOH
CHCH22OHOH ++
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15.415.4Preparation of Alcohols From EpoxidesPreparation of Alcohols From Epoxides
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Reaction of Grignard ReagentsReaction of Grignard Reagentswith Epoxideswith Epoxides
CHCH22 CHCH22 OMgXOMgX
HH33OO++
HH22CC CHCH22
OO
RR MgXMgX RR
RRCHCH22CHCH22OHOH
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CHCH33(CH(CH22))44CHCH22MgBrMgBr HH22CC CHCH22
OO
++
1. diethyl ether1. diethyl ether2. H2. H33OO++
CHCH33(CH(CH22))44CHCH22CHCH22CHCH22OOHH
(71%)(71%)
Example Example
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15.515.5Preparation of DiolsPreparation of Diols
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Diols are prepared by...Diols are prepared by...
reactions used to prepare alcoholsreactions used to prepare alcohols
hydroxylation of alkeneshydroxylation of alkenes
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OO OO
HCHCCHCH22CHCHCHCH22CH CH
CHCH33
HH22 (100 atm) (100 atm)
Ni, 125°CNi, 125°C
HOCHHOCH22CHCH22CHCHCHCH22CHCH22OHOH
CHCH33
3-Methyl-1,5-pentanediol3-Methyl-1,5-pentanediol
(81-83%)(81-83%)
Example: reduction of a dialdehydeExample: reduction of a dialdehyde
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vicinal diols have hydroxyl groups on adjacent vicinal diols have hydroxyl groups on adjacent carbonscarbons
ethylene glycol (HOCHethylene glycol (HOCH22CHCH22OH) is most familiar OH) is most familiar
exampleexample
Hydroxylation of AlkenesHydroxylation of AlkenesGives Vicinal DiolsGives Vicinal Diols
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syn addition of —OH groups to each carbonsyn addition of —OH groups to each carbonof double bondof double bond
Osmium Tetraoxide is Key ReagentOsmium Tetraoxide is Key Reagent
CC CCHHOO OOHH
CC CC
OO OO
OsOs
OOOO
CCCC
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(CH(CH33))33COOHCOOHOsOOsO44 (cat) (cat)
tert-tert-Butyl alcoholButyl alcoholHOHO––
Example Example
(73%)(73%)
CHCH22CHCH33(CH(CH22))77CHCH
CHCH33(CH(CH22))77CHCHCHCH22OHOH
OHOH
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(CH(CH33))33COOHCOOHOsOOsO44 (cat) (cat)
tert-tert-Butyl alcoholButyl alcoholHOHO––
Example Example
(62%)(62%)
HH
HH
HH
HH
OHOHHOHO