carboxylic acids, phenols, and amines - homepage | saddleback college
TRANSCRIPT
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Carboxylic Acids, Amines, and Amides
Chapter 10
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Educational Goals
1. Given the structure of a carboxylic acid, carboxylate ion, ester, amide, or amine molecule, be able to give the systemic names and vice versa.
2. Know and understand the intermolecular forces that attract carboxylic acid, amine, or amide molecules to one another, and how these forces affect boiling points and melting points.
3. Identify amines as primary (1o), secondary (2o), or tertiary (3o). Compare and contrast amines and quaternary ammonium ions.
4. Predict the products for the reactions of carboxylic acids with water, alcohols, amines, ammonia, or with strong bases.
5. Predict the products for the reactions of amines with water or with strong acids.
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Educational Goals 6. Predict the products for the base-catalyzed hydrolysis of an ester. 7. Predict the products for the acid-catalyzed hydrolysis of an amide. 8. Identify chiral carbon atoms in structural formulas. Given the
number of chiral carbons in a molecule, determine the number of stereoisomers.
9. Define the term enantiomer. Compare and contrast enantiomers and diastereomers.
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Carboxylic Acids
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Carboxylic Acids From now on, we will write “R” instead of “Hydrocarbon” in structures.
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• When naming a carboxylic acid according to the IUPAC rules, the parent is the longest continuous carbon chain that includes the carboxyl group.
Naming Carboxylic Acids
carboxyl group (COOH)
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• Numbering begins at the carbonyl carbon, and alkyl groups are identified by name, position, and number of appearances.
Naming Carboxylic Acids
carbonyl group (C=O)
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• Example: Naming Carboxylic Acids
carbon #1
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• IUPAC names for carboxylic acid parent chains are formed by dropping the final “e” on the name of the corresponding hydrocarbon and adding “oic acid”.
Naming Carboxylic Acids
Propanoic acid
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Naming Carboxylic Acids
3-Methylbutanoic acid
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You try it:
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Draw structures of each the carboxylic acids: a. 2-methylpentanoic acid
b. 4-ethylhexanoic acid
You try it:
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Some carboxylic acids use common names:
methanoic acid = formic acid
ethanoic acid = acetic acid • (vinegar is a 5% acetic acid solution)
Naming Carboxylic Acids
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Group work Draw each molecule.
NOTE: When named as a substituent, -OH is hydroxy, -Cl is chloro, and -Br is bromo.
a. butanoic acid
b. 2-hydroxypropanoic acid
c. 4-chlorohexanoic acid
d. 2-chloro-3-hydroxydecanoic acid
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Properties of Carboxylic Acids • Compared to other organic compounds with a
similar molecular weight, carboxylic acids have relatively high boiling points due to their ability to form hydrogen bonds with one another.
R R
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• The ability to form hydrogen bonds, in addition to the presence of polar C=O, C-O, and O-H bonds, gives small carboxylic acids a significant water solubility.
• An increasing number of carbon atoms leads to a reduction in water solubility.
Properties of Carboxylic Acids
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Common Carboxylic Acids Formic acid, HCOOH: Chemical that is present in the sting of ants. Acetic acid, CH3COOH: dilute (5%) aqueous acetic acid is known as vinegar. Butyric acid, CH3CH2CH2COOH: Chemical responsible for odor of rancid butter.
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Common Carboxylic Acids Caproic acid, CH3CH2CH2CH2CH2COOH: First isolated from the skin of goats-which has distinct smell.
Citric acid: Present in citrus fruits and blood.
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Aspirin and Other Over-the-Counter Carboxylic Acid Derivatives
Aspirin is a member of a group of drugs known as salicylates, or esters of salicylic acid.
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Acetaminophen is an amide that also contains a hydroxyl group. It is best known as Tylenol. It is an alternative to Aspirin for pain relief, but unlike aspirin it is not an anti-inflammatory agent.
Other Over-the-Counter Carboxylic Acid Derivatives
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NOTE: WE WILL SKIP THE SECTIONS ON PHENOLS BECAUSE WE DO NOT SEE THEM IN THE BIOCHEMISTRY CHAPTERS THAT FOLLOW CHAPTER 10 AND CHAPTER 11.
Phenols
=
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Phenols
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In the simplest phenol, named phenol, the -OH group is the only group attached to a benzene ring.
Phenols
=
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When substituents are added to this molecule, the carbon atom carrying the -OH is designated as carbon 1.
Naming Phenols
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The -OH group of phenols allows these molecules to form hydrogen bonds with one another.
• relatively high boiling points.
Properties of Phenols
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The -OH group of phenols allows these molecules to form hydrogen bonds with one another.
• relatively high boiling points.
Properties of Phenols
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The polar covalent C-O and O-H bonds and the ability to form hydrogen bonds give phenols with low molecular weight some degree of water solubility.
Properties of Phenols
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Reactions of Carboxylic Acids
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1) Reaction with Water Carboxylic acids are weak acids.
• Acid strengths of common carboxylic acids are about the same as that for acetic acid.
(pKa = 4.74)
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• For the acid (HA) and its conjugate base (A-), HA + H2O A- + H3O+
• There is more HA when the pH is lower than the pKa. • There is more A- when the pH is higher than the pKa. • There are equal amounts of HA and A- when the pH = pKa.
Acidity of Carboxylic Acids Remember this from chapter 9?
(pKa = 4.74)
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Carboxylic acids undergo neutralization reactions with bases and produce water and a carboxylic acid salt. • The resulting carboxylate ions are more soluble in water than the carboxylic acids themselves.
• The ions have a full charge = more water soluble.
2) Neutralization: Reaction with OH-
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In general, carboxylate anions with 12 or more carbon atoms, like palmitate ion, are amphipathic, while those with fewer than 12 carbon atoms are water soluble.
Solubility of Carboxylate Ions
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Naming Carboxylate Ions • To name a carboxylate ion, the ending on the name
(IUPAC or common) of the related carboxylic acid is changed from “ic acid” to “ate”. – Example:
• acetic acid becomes acetate ion
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Naming Carboxylate Ions – Example:
• Palmitic acid becomes palmitate ion
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Acid Form O ||
R – C – OH Carboxylic Acid
Base Form O ||
R – C – O- Carboxylate ion
When R gets to be 5 carbons, the solubility decreases rapidly.
If R has less than 12 carbons: • Soluble (aq)
If R has 12 or more carbons: • Amphipathic • Forms monolayers or micelles
Summary: Solubility of Carboxylic Acids and their Conjugate Bases
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You try it: Draw and name the conjugate base (carboxylate ion)
for the following carboxylic acids:
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• Phenols are considerably weaker acids than carboxylic acids.
• Phenol has a pKa value near 10.
Acidity of Phenols
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Phenols undergo neutralization reactions with strong bases and produce water and a phenoxide salt.
Acidity of Phenols
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Draw and name the product of the reaction between KOH (strong base) and 4-bromophenol.
You Try It!
OH
+ KOH + H2O ?
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Other Reactions of Carboxylic Acids
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3) Esterification Esterification is carried out by warming a mixture of a carboxylic acid and an alcohol in the presence of a strong acid catalyst.
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Note that the reaction is reversible! Esters undergo hydrolysis to give back the carboxylic acid.
– we saw this in chapter 6! Ester hydrolysis reactions can be catalyzed by either an acid or a base. Here is the net result:
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• When naming an ester, place the name of the alkyl group (R’) in front of the name of the carboxylate part (RCOO) as follows:
Naming Esters
O
|| R – C – O – R’
Example:
O
|| CH3CH2C – O – CH2CH3
carboxylate part alkyl
group
Ethyl propanoate
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• When naming an ester, place the name of the alkyl group (R’) in front of the name of the carboxylate part (RCOO) as follows:
You try one:
O
|| R – C – O – R’
Name this ester:
O
|| CH3C – O – CH3
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4) Decarboxylation
• Break the COOH off, and replace the H!
O
|| R – C – O – H R – H + CO2
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Decarboxylation • Common in biological systems for keto-acids
• Keto acids are carboxylic acids with ketone functionality (carbonyl groups)
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Decarboxylation
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Decarboxylation
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Draw the products of each decarboxylation reaction.
You Try It!
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Summary of Reactions of Carboxylic Acids 1) Reaction with water:
2) Neutralization (reaction with OH-):
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Summary of Reactions of Carboxylic Acids 3) Esterification (reaction with alcohol):
4) Decarboxylation:
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Amines
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Amines
• Amines are compounds that contain one or more organic groups bonded to nitrogen.
R R
R R
R R
• They are classified a primary, secondary, and tertiary according to how many organic groups are bonded to the nitrogen atom.
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Amines
primary (1°) - only one organic group (R) is attached to the amine nitrogen atom
R
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Amines secondary (2°) - two organic groups attached to the amine nitrogen
R
R
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Amines
tertiary (3°) - three organic groups attached to the amine nitrogen
R
R R
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In a primary, secondary, or tertiary amine, the amine nitrogen has a lone pair of electrons.
Amines
R R R R
R R
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When a fourth group bonds to the nitrogen, the product is a quaternary ammonium ion, which has a positive charge and forms ionic compounds.
Amines
R
R R
R
the nitrogen carries a +1 charge.
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Naming Amines • To name a 1°, 2°, or 3° amine using IUPAC rules, the
parent, the longest chain of carbon atoms attached to the amine nitrogen atom, is numbered from the end nearer the point of attachment of the nitrogen.
• The parent chains of amines are named by dropping “e” from the name of the corresponding hydrocarbon and adding “amine.”
• Write the carbon number of the point of attachment to the nitrogen in front of the parent name.
CH3CH2CH2NH2 = 1-propanamine CH3CHCH3 │
NH2 = 2-propanamine
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Naming Amines • If an amine is 2° or 3°, the carbon-containing
groups attached to the nitrogen atom that are not part of the parent chain are substituents and N is used to indicate their location (N-methyl, N,N-diethyl, etc.).
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Naming Amines
• Simple amines, those with a relatively few number of carbon atoms, are often identified by common names by placing “amine” after the names of the groups attached to the nitrogen. – methylamine = CH3NH2
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Match each IUPAC and common name to the correct structural formula:
You Try It!
N,N-diethyl-1-propanamine
N-ethyl-1-propanamine
1-butanamine
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Practice: Draw the line structure for the following compound, and then name it!
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• When NH2- group is present as a substituent in a molecule it is called an amino group.
• All proteins are made up of amino acids.
Naming Amines
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• Lone pairs on amines can hydrogen bond to water. (water solubility better than alkanes)
• Primary and secondary amines can hydrogen bond to themselves and each other amines. – As a result of hydrogen bonding, primary and secondary
amines have higher boiling points than alkanes of similar size.
Properties of Amines
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• Volatile amines have strong odors. -Amines smell like rotten fish.
• Many amines are physiologically active. -Smaller amines are irritating to the skin,
eyes, and mucous membrane and are toxic by ingestion.
Properties of Amines
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Heterocyclic Nitrogen Compounds • Rings that contain atoms other than carbon
are known as heterocycles.
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Heterocyclic Nitrogen Compounds Heterocyclic nitrogen rings are very common in natural compounds found in plants and animals.
DNA
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Reactions Of
Amines
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1) Reaction of Amines with Water • Amines are bases.
– This basic property is due to the electron lone pair on the amine nitrogen that can be used to form a covalent bond with a H+ ion from water or an acid.
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Amines react with water to form quaternary ammonium ions and OH-
Reaction of Amines with Water
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Basicity of Amines
predominates when pH < pKa
predominates when pH > pKa
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A strong acid converts an amine into its conjugate acid. (pH<pKa)
2) Reaction of Amines with Acids
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Amines in Plants: Alkaloids
• Alkaloids are naturally occurring nitrogen compounds isolated from plants.
• Most alkaloids are usually bitter-tasting, physiologically active, and toxic in high doses.
• Some alkaloids are very familiar, such as the stimulants caffeine and nicotine.
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Amines in Plants: Alkaloids • Other alkaloids are used as pain killers, sleep
inducers, and for the creation of euphoria.
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Amides
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Amides result when the –OH from a carboxylic acid is replaced with an –NH2 or an amine.
Amides
RCONH2, RCONHR’, RCONR’2
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Amides contain an –NH2 group with none, one, or both of the N-hydrogens replaced with alkyl groups (R).
• Examples:
Amides
’ ‘’ ’ ’
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• Name is based on the longest continuous carbon chain that contains the carbonyl (C=O).
– Just like naming the carboxylic acids! • Drop the “e” on the parent chain and add “amide” • List the substituents as usual, making carbonyl-carbon #1
Naming Amides
Example:
O
|| CH3CH2C – NH2
Parent Chain
propanamide
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Name the compound shown below: You try one:
O
|| CH3CH2CH2CH2C – NH2
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Formation of Amides Amides can be made form carboxylic acids and amines. O O || || R – C – OH + H–N–H R – C – N–H + H2O | | H H Examples:
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Formation of Amides
Note that the reaction is reversible:
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Stereoisomers Definition:
• Stereoisomers are molecules that have the same formula and atomic connections, but different three dimensional shapes.
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• We have seen some examples of stereoisomers in the past: – Geometric isomers (cis and trans)
• We will learn about a new class of stereoisomers called enantiomers.
Stereoisomers
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• Enantiomers are nonsuperimposable mirror image molecules.
Enantiomers
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• The term chiral is used to describe objects that cannot be superimposed on their mirror image.
– Example: Your hands are chiral because your left hand is not superimposable on your right hand, its mirror image. (Try it!)
Enantiomers
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A carbon is chiral if it has four different groups bonded to it!
Enantiomers
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Use an asterisk (*) to label the chiral carbon(s) in each molecule.
You Try It!
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• Pairs of enantiomers are identical in almost every way.
Enantiomers
• Biological systems such as smell and taste receptors, enzymes, and antibodies are selective with respect to enantiomers.
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Enantiomers
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• Pairs of enantiomers are identical in almost every way.
• One property that can be used to distinguish enantiomers is the difference in how they interact with plane-polarized light.
• Each enantiomer will rotate plane-polarized light in an opposite direction.
Enantiomers
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Enantiomers
• A racemic mixture is a 50/50 mixture of enantiomers.
• In a racemic mixture the rotation of plane-polarized light due to one enantiomer cancels that of the other enantiomer and no net rotation of light occurs.
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Molecules with More than One Chiral Carbon Atom
As the number of chiral carbon atoms in a molecule increases, so does the number of stereoisomers that can exist.
Number of stereoisomers = 2n where n is the number of chiral carbon atoms.
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a. How many chiral carbon atoms does 2-bromo-3-chlorobutane have?
b. How many stereoisomers are possible for this molecule?
You Try It!
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Diastereomers Stereoisomers that are not enantiomers (mirror images) are called diastereomers.
Example:
The stereoisomers of 2-bromo-3-chlorobutane.
Diastereomers
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End of Chapter 10