Chapter 10: Structure and Synthesis of Alcohols 10: Structure and Synthesis of Alcohols 100....
Transcript of Chapter 10: Structure and Synthesis of Alcohols 10: Structure and Synthesis of Alcohols 100....
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Chapter 10: Chapter 10: Structure and Synthesis of Structure and Synthesis of
AlcoholsAlcoholsAlcoholsAlcohols
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Physical Properties
Alcohols can be:CH3 CH
OH
CH2CH3*
CH3 CH
CH3
CH2OH*
Secondary alcohol
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CH3 C
CH3
CH3
OH*
*Primary alcohol
Secondary alcohol
Tertiary alcohol
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• Most alcohols (C1-C12) are liquids at room temperature• Bp much higher than alkanes of similar molecular weights (H-bonding)
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� Acidity: the H of the hydroxyl group is weakly acidic:
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� This hydroxyl proton can be removed with suitable bases. Bases such as KOH or NaOH are not strong enough. NaH, KH or Na(s), K(s) are usually used.
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� In the case of phenols, the pKa of the hydroxyl group is around 10 and weaker bases can be used (NaOH, KOH, etc…)
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Synthesis of AlcoholsSynthesis of Alcohols(Review)(Review)
§ Hydration(a) Direct (8.4)
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Mechanism of Direct Hydration of Mechanism of Direct Hydration of AlkenesAlkenes
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(b) Indirect (4.8)(1) Oxymercuration/Demercuration (8.5)
(2) Hydroboration/Oxidation (8.7)
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§ Hydroxylation (8.14)
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New Synthesis of Alcohols(Nu attack on carbonyl compounds)
An excellent method to make alcohols. Depending on the type of carbonyl used, primary, secondary and tertiary alcohols are all available from this reaction.available from this reaction.
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2 types of reagents can deliver nucleophilic carbons to C=O:
◦ Grignard reagent: R-Mg-X◦ Alkyl Lithium: R-Li
R MgX
δ− δ+
R Li
δ+δ−
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§ Synthesis of Grignard Reagents (10.8)
BrMgBr
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Br
+ Mgether MgBr
CH3CHCH2CH3
Clether
+ Mg CH3CHCH2CH3
MgCl
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� Alkyl Lithium can be prepared in a similar way:
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§ Synthesis of 1oAlcohols (10.9)Grignards or alkyl lithium react with formaldehyde to produce primary alcohols. The carbon chain increases by one carbon from the original organometallic reagent.
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§ Synthesis of 2oAlcohols (10.9)other aldehydes react to give secondary alcohols with either Grignard reagents or alkyl lithiums to produce secondary alcohols
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§ Synthesis of 3oAlcohols (10.9)reaction of ketones with RLi or RMgX will produce tertiary alcohols
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§ 3oAlcohols by Acyl Substitution(10.9)acid chlorides and esters react with either Grignard reagents or alkyl lithiums via the acyl substitution mechanism. Since the resulting product is a ketone, the reaction will continue and eventually produce the corresponding tertiary eventually produce the corresponding tertiary alcohol.
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Mechanism of Acyl SubstitutionMechanism of Acyl SubstitutionIn the presence of a Grignard or alkyl lithium the reaction will first produce a ketone which will continue to react to produce the corresponding 3o alcohol.
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� Here is an example of this reaction using two equivalent of grignard reagent with an ester.
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1oAlcohols With 2 Extra Carbons on the Alkyl Chain. (10.9)
These compounds are generated by the reaction of RLi or RMgX with epoxides.◦ Epoxides are electrophilic due to the ring strain.◦ 2 extra carbons will be added to the alkyl chain.
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Limitations of Grignard ReagentsLimitations of Grignard Reagents� Grignards are good nucleophiles but in the presence of acidic protons it will acts as a strong base. ◦ No water or other acidic protons like ◦ No water or other acidic protons like O—H, N—H, S—H, or terminal alkynes.
� No other electrophilic multiple bonds, like C═N, C≡≡≡≡N, S═O, or N═O.
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Practice QuestionPractice Question� What is the major organic product of the following reactions. Disregard stereoisomers.
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� 3-Methyl-3-hexanol can be prepared from the reaction of 2-pentanone and ethylmagnesium bromide as shown below. What other combination or grignards and ketones can be used to prepare this compound?
2) H3O+
1) CH3CH2MgBrO
OH
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Reduction of Carbonyl CompoundsReduction of Carbonyl Compounds (10.11)(10.11)
� Reduction of the carbonyl group also produces alcohol by nucleophilic attack to the carbon of the carbonyl. In this case the nucleophile is the hydride ion. Protonation of the resulting alkoxide ion gives the alcohol.
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2 common reagents to carry out this transformation are :
LiAlH4 : lithium aluminum hydride
NaBH4 : sodium borohydride
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NaBH4 is selective only for ketones, aldehydes and acid chlorides. LiAlH4 will reduce all carbonyl compounds.
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� This selectivity can be used in synthesis to control which functional group reacts.
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Mechanism of Hydride Reduction of CarbonylsMechanism of Hydride Reduction of Carbonyls(Ketones and Aldehydes)(Ketones and Aldehydes)
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Mechanism of Acid Chloride/Ester ReductionMechanism of Acid Chloride/Ester Reduction
� In the case of esters and acid chlorides, two equivalents of the hydride are transferred since the first product is a ketone. 1o alcohols are produced.
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Catalytic HydrogenationCatalytic Hydrogenation (10.11)(10.11)
� Similar to the hydrogenation of alkene seen in CHEM201, addition of H2 to the carbonyl of ketones and aldehydes is possible resulting in the formation of alcohols.alcohols.
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� This reaction is also complementary to the reduction using metal hydrides as it allow for other reduction to take place.
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Practice QuestionsPractice Questions� Complete the following reactions.
NaBH4
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COOCH3
NaBH4
MeOH