Download - Chapter 9 Aldehydes and Ketones
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Chapter 9 Chapter 9 Aldehydes and KetonesAldehydes and Ketones
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StructureStructure
The functional group of an aldehydealdehyde is a carbonyl group bonded to a hydrogen atom.• In methanal, the simplest aldehyde
(formaldehyde), the carbonyl group is bonded to two hydrogens.
• In other aldehydes, it is bonded to one hydrogen and one carbon group.
The functional group of a ketoneketone is a carbonyl group bonded to two carbon groups.
O
C
R H
Aldehyde
O
C
R R
Ketone
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NomenclatureNomenclatureIUPAC names for aldehydes:• The longest chain must have an aldehyde group (-
COH)• No need to use a number to indicate the aldehyde
group• To name an aldehyde, change the suffix -ee of the
parent alkane to -alal.• For unsaturated aldehydesunsaturated aldehydes, indicate the presence
of a carbon-carbon double bond by changing the ending of the parent alkane from -aneane to -enalenal. Numbering the carbon chain begins with the aldehyde carbonyl carbon.
• Show the location of the carbon-carbon double bond by the number of its first carbon.
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ExamplesExamples Name the following molecules
Draw a line-angle for◦ 5-isopropyl-2,5-dimethyl-heptanal
◦ 2-propenal
H
O
Cl
O
H
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NomenclatureNomenclature• The IUPAC system retains common names for some
aldehydes, including these three.
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NomenclatureNomenclatureIUPAC names for ketones.
• The parent alkane is the longest chain that contains the carbonyl group.
• Indicate the presence of the carbonyl group by changing the -aneane of the parent alkane -oneone.
• Number the parent chain from the direction that gives the carbonyl carbon the smaller number.
• The IUPAC retains the common name acetone for 2-propanone.
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ExamplesExamples Name the following molecules
Draw line-angle for these o-Ethylbenzylaldehyde
3,3-dimethylcylohexanone
O O O
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NomenclatureNomenclatureTo name an aldehyde or ketone that also contains an -OH (hydroxyl) or -NH2 (amino) group:
• Number the parent chain to give the carbonyl carbon the lower number.
• Indicate an -OH substituent by hydroxy-hydroxy-, and an -NH2 substituent by aminoamino--.
• Hydroxyl and amino substituents are numbered and alphabetized along with other substituents.
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NomenclatureNomenclatureCommon names
The common name for an aldehyde is derived from the common name of the corresponding carboxylic acid.
Drop the word "acidacid" and change the suffix -icic or -oicoic to -aldehydealdehyde.. ◦ Name each alkyl or aryl group bonded to the
carbonyl carbon as a separate word, followed by the word "ketoneketone”. Alkyl or aryl groups are generally listed in order of increasing molecular weight.
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ExamplesExamples Name the following compounds
O
OH
CHO
NH2
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ExamplesExamples Draw the structure for each of the following compounds:
5-aminobenzaldehyde
2,4-pentadione
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Physical PropertiesPhysical PropertiesA C=O bond is polar, with oxygen bearing a partial negative charge and carbon bearing a partial positive charge.• Therefore, aldehydes and ketones are polar molecules.• Figure 9.1 The polarity of a carbonyl group.
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Physical PropertiesPhysical Properties• In liquid aldehydes and ketones, there are weak
intermolecular attractions between the partial positive charge on the carbonyl carbon of one molecule and the partial negative charge on the carbonyl oxygen of another molecule.
• No hydrogen bonding is possible between aldehyde or ketone molecules.
• Aldehydes and ketones have lower boiling points than alcohols and carboxylic acids, compounds in which there is hydrogen bonding between molecules. See the table on the next screen.
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Physical PropertiesPhysical Properties• Table 9.1 Boiling Points for Six Compounds of
Comparable Molecular Weight.
• Formaldehyde, acetaldehyde, and acetone are infinitely soluble in water.
• Aldehydes and ketones become less soluble in water as the hydrocarbon portion of the molecule increases in size.
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OxidationOxidation• Aldehydes are oxidized to carboxylic acids by a variety
of oxidizing agents, including potassium dichromate.
R C
O
H[ O ]
R C
O
OHoxidizing agent
K2Cr2O7/H2SO4
KMnO4
Ag2O
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OxidationOxidation Liquid aldehydes are so sensitive to oxidation by O2 in
the air that they must be protected from contact with air during storage.
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OxidationOxidation◦ Ketones resist oxidation by most oxidizing agents,
including potassium dichromate and molecular oxygen.◦ Tollens’ reagent is specific for the oxidation of
aldehydes. If done properly, silver deposits on the walls of the container as a silver mirror.
R C
O
H + 2Ag(NH3)2+ + 3 -OH R C
O
O- + 2Ag + 4NH3 + 2H2Ocarboxylateanion
silver miror
Tollen'sreagentAldyhyde
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ExamplesExamplesCHO
HO
+ Ag2O
Hexanal + O2
3-Phenylpropanal + Ag(NH3)2+
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ReductionReduction• The carbonyl group of an aldehyde or ketone is
reduced to an -CHOH group by hydrogen in the presence of a transition-metal catalyst.• Reduction of an aldehyde gives a primary alcohol.• Reduction a ketone gives a secondary alcohol.
pentanal pentanol
cyclopentanone cyclopentanol
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ReductionReductionThe most common laboratory reagent for the reduction of an aldehyde or ketone is sodium borohydride, NaBHNaBH44.
• This reagent contains hydrogen in the form of hydride ion, H:H:--.
• In a reduction by sodium borohydride, hydride ion adds to the partially positive carbonyl carbon which leaves a negative charge on the carbonyl oxygen.
• Reaction of this intermediate with aqueous acid gives the alcohol.
H3C C CH2CH3
O
2-butanone
NaBH4
CH3OHH3C C
HCH2CH3
OH
2 butanol
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ReductionReduction
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ReductionReduction
•Reduction by NaBH4 does not affect a carbon-carbon double bond or an aromatic ring.
Cinnamaldehyde Cinnamyl alcohol
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ReductionReduction• In biological systems, the agent for the reduction of
aldehydes and ketones is the reduced form of nicotinamide adenine dinucleotide, abbreviated NADH
• This reducing agent, like NaBH4, delivers a hydride ion to the carbonyl carbon of the aldehyde or ketone.
• Reduction of pyruvate, the end product of glycolysis, by NADH gives lactate.
Pyruvate Lactate
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ExamplesExamples What alcohol is obtained from the reduction of the
following compound 2-methylpropanal with NaBH4/H+
Determine whether the starting material is an aldehyde or a ketone from the production of 2,6-heptanol with H2/metal catalyst
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Addition of AlcoholsAddition of AlcoholsAddition of a molecule of alcohol to the carbonyl group of an aldehyde or ketone forms a hemiacetalhemiacetal (a half-acetal).• The functional group of a hemiacetal is a carbon
bonded to one -OH group and one -OR group.• In forming a hemiacetal, -H of the alcohol adds to the
carbonyl oxygen and -OR adds to the carbonyl carbon.
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Addition of AlcoholAddition of Alcohol
H3CC
H
O
+ ROHH+
H3C OR
H
OH
an aldehydea hemiacetal
+ ROHH+
H3C OR
H
OR
an acetal
H3CC
H
O
+ ROHH+
H3C OR
H
OH
an aldehydea hemiacetal
Further Addition of Alcohol
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Addition of AlcoholsAddition of Alcohols
H3CC
CH3
O
+ ROHH+
H3C OR
CH3
OH
a ketonea hemiketal
H3CC
CH3
O
+ ROHH+
H3C OR
CH3
OH
an ketonea hemiketal
+ ROHH+
H3C OR
CH3
OR
a ketal
Further Addition of Alcohol
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Addition of AlcoholsAddition of Alcohols• Hemiacetals are generally unstable and are only minor
components of an equilibrium mixture except in one very important type of molecule.
• When a hydroxyl group is part of the same molecule that contains the carbonyl group and a five- or six-membered ring can form, the compound exists almost entirely in a cyclic hemiacetal form.
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Addition of AlcoholAddition of AlcoholFormation of acetal using a diol
as the alcohol gives a cyclic acetal
C
O
H+
H2C CH2
OHOH
H
O O
Benzylaldehyde ethylene acetalBenzaldehyde
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Addition of AlcoholsAddition of Alcohols• All steps in hemiacetal and acetal formation are
reversible.• As with any other equilibrium, we can drive it in either
direction by using Le Chatelier's principle.• To drive it to the right, we either use a large excess of
alcohol or remove water from the equilibrium mixture
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Addition of AlcoholAddition of Alcohol To drive it to the left, we use a large excess of water.
OH
OCH2CH3
H2O excess
H+ O
Ketonehemiacetal
+ HOCH2CH3
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ExampleExample Show the reaction of benzaldehyde with one molecule
of methanol to form a hemiacetal and then with a second of methanol to form an acetal
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ExamplesExamples Draw the structures of the aldehyde or ketones and
alcohols formed when these acetals are treated with aqueous acid and hydrolyzed.
OCH3
OCH3
OCH3
O O
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Keto-Enol TautomerismKeto-Enol Tautomerism
A carbon atom adjacent to a carbonyl group is called an (alpha) -carbon-carbon, and a hydrogen atom bonded to it is called an -hydrogen-hydrogen.
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Keto-Enol TautomerismKeto-Enol Tautomerism An aldehyde or ketone that has a hydrogen on an a-carbon is in equilibrium with a constitutional isomer called an enoenoll.◦ The name “enol” is derived from the IUPAC
designation of it as both an alkene (-enen-) and an alcohol (-olol).
◦ In a keto-enol equilibrium, the keto form generally predominates.
RH2CC
O
RCRHC
OH
R
Keto tautomer enol tautomer
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Keto-Enol TautomerismKeto-Enol Tautomerism• Example:Example: Draw structural formulas for the two enol
forms for each ketone.