chapter 16 aldehydes and ketones - north seattle...
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Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Chapter 16
Aldehydes and
Ketones
Based on Material Prepared by
Andrea D. LeonardUniversity of Louisiana at Lafayette
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Carbonyl Group - Structure and Bonding
2
• The carbonyl carbon atom is trigonal planar,
with bond angles of 120o.
• O is more electronegative than C, so the
carbonyl group is polar.
• The carbonyl O is e− rich (δ−) and the carbonyl C
is e− poor (δ+).
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Aldehydes and Ketones
3
• Abbreviations for aldehydes and ketones:
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NomenclatureA. Naming Aldehydes
4
To name an aldehyde using the IUPAC system:
• Find the longest chain containing the CHO group.
• Change the “-e” ending of the parent alkane to ”-al”.
• Number the chain to put the CHO group at C1, but
omit “1” from the name.
• Apply all other nomenclature rules.
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NomenclatureA. Naming Aldehydes
5
Sample Problem 16.1
Give the IUPAC name for each aldehyde
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NomenclatureA. Naming Aldehydes
6
Sample Problem 16.1
[1] Find and name the longest chain containing
the CHO.
a) b)
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NomenclatureA. Naming Aldehydes
7
Sample Problem 16.1
[2] Number and name substituents, making sure
the CHO group is at C1.
a) b)
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NomenclatureA. Naming Aldehydes
8
Common names are used for simple aldehydes;
the names contain the suffix “-aldehyde”.
formaldehyde acetaldehyde benzaldehyde
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NomenclatureB. Naming Ketones
9
To name an ketone using the IUPAC system:
• Find the longest chain containing the carbonyl
group.
• Number the chain to give the carbonyl carbon
the lower number.
• Apply all other nomenclature rules.
• Change the “-e” ending of the parent alkane to ”-
one”.
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NomenclatureB. Naming Ketones
10
Sample Problem 16.1
Give the IUPAC name for each ketone.
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NomenclatureB. Naming Ketones
11
Sample Problem 16.1
[1] Find and name the longest chain containing
the carbonyl group.
a) b)
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NomenclatureB. Naming Ketones
12
Sample Problem 16.1
[2] Number and name substituents, making sure
the carbonyl carbon has the lowest possible
number.
a) b)
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NomenclatureB. Naming Ketones
13
Common names for ketones are formed by naming
both alkyl groups, arranging them alphabetically,
and adding the word “-ketone”
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NomenclatureB. Naming Ketones
14
Some widely used common names do not follow
the convention:
acetone acetophenone benzophenone
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Physical Properties
15
Aldehydes and ketones have higher boiling points
than similar hydrocarbons because:
• they are polar molecules - stronger
intermolecular forces than alkanes and alkenes
Increasing boiling point
CH3CH2CH2CH2CH3
pentane
bp 36 oC
CH3CH2CH2CHO
butanal
bp 76 oC
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Physical Properties
16
Aldehydes and ketones have lower boiling points
than similar alcohols because:
• they do not have an O—H bond - they do not
form intermolecular hydrogen bonds.
• thus, they have weaker intermolecular forces
than alcohols
Increasing boiling point
CH3CH2COCH3
2-butanone
bp 80 oC
CH3CH2CH2CH2OH
1-butanol
bp 118 oC
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Physical Properties
17
• Aldehydes and ketones are soluble in organic
solvents.
• Those molecules with 6 C’s or less are soluble
in water.
• Those molecules with 7 C’s or more are
insoluble in water.
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Focus on Health & MedicineInteresting Aldehydes and Ketones
18
Formaldehyde (CH2═O) is the simplest aldehyde:
• Starting material for synthesis of resins and plastics.
• Sold as formalin, a 37% aqueous solution used to
preserve biological specimens.
Acetone [(CH3)2C═O] is the simplest ketone:
• Industrial solvent and a starting material for
organic polymers.
• Produced in the breakdown of fatty acids in the body.
• Unusually high levels are found in diabetic patients.
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Focus on Health & MedicineInteresting Aldehydes and Ketones
19
Cinnamaldehyde, major component of cinnamon bark:
Vanillin, primary component of the extract of the vanilla
bean:
Citral, characteristic odor of lemon grass, used in
perfumery and in synthesis of vitamin A:
Citronellal, odor of citronella candles, used to repel
mosquitoes:
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Reactions of Aldehydes and Ketones
20
1. Aldehydes can be oxidized to carboxylic acids:
2. Aldehydes and ketones undergo addition
reactions:
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Reactions of Aldehydes and Ketones1. Oxidation of Aldehydes
21
In oxidation, the aldehyde C—H bond is converted into a
carboxylic acid C—OH bond.
Ketones cannot be oxidized because there is no C—H bond.
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Reactions of Aldehydes and Ketones1. Oxidation of Aldehydes
22
Aldehydes can be selectively oxidized in the presence of
other functional groups using the Tollens reagent.
Ketones do not react with the Tollens reagent.
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Reactions of Aldehydes and Ketones2. Specific Features of Carbonyl Reductions
23
• Aldehydes are reduced to 1o alcohols:
• [H] is used to represent a general reduction
reagent.
• H2 gas in the presence of Pd metal is a commonly
used reagent.
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Reactions of Aldehydes and Ketones2. Specific Features of Carbonyl Reductions
24
• Ketones are reduced to 2o alcohols.
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Reactions of Aldehydes and Ketones2. Specific Features of Carbonyl Reductions
25
Examples:
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Reactions of Aldehydes and Ketones2. Specific Features of Carbonyl Reductions
Focus on the Human Body
26
• Biological systems do not have H2 and Pd to
use as a reducing agent.
• Instead they use the coenzyme NADH in the
presence of an enzyme.
• In acting as a reducing agent the NADH is
oxidized to NAD+, which is a biological
oxidizing agent.
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Reactions of Aldehydes and Ketones2. Specific Features of Carbonyl Reductions
The Chemistry of Vision
27
• The human
eye consists of
two types of
light-sensitive
cells—the rod
and the cone
cells.
• The chemistry of vision in
the rod cells centers around
the aldehyde 11-cis-retinal.
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• The cis double bond is
isomerized into the
morestable trans double
bond when light hits the
retina.
• This process sends a nerve
impulse to the brain, which
is then converted into a
visual image.
Reactions of Aldehydes and Ketones
2. Specific Features of Carbonyl Reductions
The Chemistry of Vision
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• Aldehydes and ketones undergo addition
reactions with alcohols to form hemiacetals and
acetals (in the presence of H2SO4).
Reactions of Aldehydes and Ketones
2. Acetals and Hemiacetals
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• Addition of one molecule of alcohol to an aldehyde
or ketone forms a hemiacetal.
• A hemiacetal will react with a second molecule of
alcohol to form an acetal.
Reactions of Aldehydes and Ketones
2. Acetals and Hemiacetals
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• An example of acetal formation using ethanol as
the added alcohol:
Reactions of Aldehydes and Ketones
2. Acetals and Hemiacetals
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• Cyclic hemiacetals containing 5 or 6 membered rings are
stable compounds.
Reactions of Aldehydes and Ketones
2. Acetals and Hemiacetals
• Formed by an intramolecular reaction of a compound that
contains both an OH group and an aldehyde or ketone.
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• The most common simple carbohydrate, glucose,
exists predominantly as a cyclic hemiacetal.
Reactions of Aldehydes and Ketones
2. Acetals and Hemiacetals
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• Cyclic hemiacetals are converted to cyclic
acetals by reaction with another alcohol.
Reactions of Aldehydes and Ketones
2. Acetals and Hemiacetals
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• Lactose, the main carbohydrate in milk, is composed
of both a cyclic hemiacetal and a cyclic acetal.
Reactions of Aldehydes and Ketones
2. Acetals and Hemiacetals
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• Acetals can be converted back to aldehydes (or
ketones) and alcohols by hydrolysis.
Reactions of Aldehydes and Ketones
2. Acetals and Hemiacetals
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Example:
Reactions of Aldehydes and Ketones
2. Acetals and Hemiacetals