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Chemistry 230
Chapter Three Notes
Chapter Three
An Introduction to Organic Reactions:
Acids and Bases
Types of Organic Reactions
„ Many different organic reactions will be taught in this course
„ Most can be categorized into the following types
ƒ Additions
ƒ Substitutions
ƒ Eliminations
ƒ Rearrangements
ƒ Oxidations
ƒ Reductions
An Overview of Organic Reaction Types: Additions
„ An addition reaction involves the combination of an organic compound with some other
element or compound
„ In most cases, a reagent will add itself to a double or triple bond in a compound
An Overview of Organic Reaction Types: Substitutions
A substitution reaction involves the exchange of some part of an organic molecule for
another group
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Chapter Three Notes
An Overview of Organic Reaction Types: Eliminations
„ In an elimination reaction, an atom or groups of atoms is lost from each of two adjacent
carbon atoms, forming a new π bond
An Overview of Organic Reaction Types: Rearrangements
As the name implies, a rearrangement reaction involves some fundamental change in the
structure of a molecule without a net addition or loss of atoms
ƒ We end up with the same atoms that we began with, only they are bonded in a different
way
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An Overview of Organic Reaction Types: Oxidations
„ In organic chemistry, an oxidation reaction causes one or more carbon atoms in the structure
to
ƒ Form new bonds with more electronegative atoms, especially oxygen
ƒ Break bonds with hydrogren atoms
„ A reagent which causes an organic molecule to become oxidized is called an oxidizing agent
ƒ Common oxidizing agents include KMnO4 and CrO3
An Overview of Organic Reaction Types: Reductions
„ A reduction is the opposite of an oxidation, and causes and organic compound to
ƒ Break bonds with more electronegative atoms, especially oxygen
ƒ Form new bonds with hydrogren atoms
„ A reducing agent is a reagent used to effect this change
ƒ Common oxidizing agents include NaBH4, LiAlH4, and H2
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Chapter Three Notes
Brønsted-Lowry Definition of Acids and Bases
„ Of the ways in which we can define the terms acid and base, two are especially important in
organic chemistry
„ According to the Brønsted-Lowry definition, in a chemical reaction
ƒ an acid donates a proton (H+), and
ƒ a base accepts a proton
Lewis Definition of Acids and Bases
„ An alternative, more general, definition of acids and bases was given by G.N. Lewis.
„ According to Lewis
ƒ an acid is a substance which accepts an electron pair
ƒ a base is a substance which donates an electron pair
„ This definition does not contradict the Brønsted-Lowry definition, but simply expands the idea
Example:
H
+
NH3
H
NH3
Fits the Bronsted-Lowry theory
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What About
Cl
Cl
Al
Cl
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Cl
+
N(CH3)3
Cl
Al
N(CH3)3
Cl
Here the Lewis Theory must be used as there are no protons being accepted or donated
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Chapter Three Notes
Common Lewis Acids
„ Metallic compounds which can accept electrons often act as Lewis Acids
„ Common examples include
ƒ AlCl3 (seen in previous slide)
ƒ FeBr3
ƒ ZnCl2
HgCl2
ƒ
„ The metal atoms in these compounds are capable of complexing with the electron pairs
and/or π bonds of molecules
Acids and Bases in Organic Reactions
„ Acidity and basicity are important concepts in how organic molecules react
+
„ Many reactions involve the transfer of a proton (H )
„ The most common of the distinctly acidic organic compounds are carboxylic acids (i.e.
Compounds which contain the group -COOH)
O
R
C
O
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H
Other organic compounds have varying degrees of acidity
Approximate pKa Values
Examples of Organic Acid - Base Reactions
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Chapter Three Notes
Calculation of Equilibrium Constants
Relationship of Bases and Conjugate Acid
„ In comparing the strength of bases, we should first consider the acidity (pKa) of their
conjugates acids
„ A base derived from a strong mineral acid is very weak
ƒ Consider HCl and Cl„ A base derived from a very weak acid is generally an extremely strong base
ƒ Consider NH3 (as an acid) and NH2Example
„ Rank the molecules below in order from 1 to 5 from weakest base to strongest base (strongest
= 5).
O
Cl-
NH2-
NH3
OH-
Effect of Structure on pKa
The more electronegative the atom to which the hydrogen is bonded, the stronger the acid if
the atoms have similar size (e.g. in the same period).
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Chapter Three Notes
When comparing acids which have hydrogen atoms bonded to atoms within the same group,
we must consider the size of the atom hydrogen is bonded to
ƒ Compare HCl and HBr
Br is a larger atom and overlap with the 1s orbital of hydrogen is not as great as in the case of
Cl
The larger Br- ion is able to spread its charge out over a larger volume than Cl-, so Br- is a
weaker base than ClHBr is a stronger acid than HCl despite the fact that Cl is more electronegative than Br!
The effect of electronegative atoms also is felt when they are near the acidic hydrogen but not
bonded directly to it. This is called the inductive effect.
Note how the acidity decreases as the bromine is farther from the carboxylic acid group
A Point of Confusion…
Why is it that trifluoroacetic acid (CF3COOH) is more acidic than triiodoacetic acid (CI3COOH),
but hydroiodic acid (HI) is more acidic than hydrofluoric acid (HF)?
„ In the first pair of acids, the acidic proton of both acids is bonded to an oxygen atom.
„ Trifluoroacetic acid is a stronger acid because it the acidic hydrogen experiences a greater
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inductive effect.
In the second pair of acids, the acidic proton is bonded to different atoms, F and I.
„ HI is more acidic because the iodide ion can disperse its charge over a larger volume of
space. Iodide ion is therefore a weaker conjugate base, leading us to conclude that HI is
the stronger acid.
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Chemistry 230
Chapter Three Notes
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Hybridization and pKa
„ Hydrogens bonded to carbon atoms are not usually very acidic
„ The acidity of these hydrogen atoms depends somewhat on the amount of “s character” on the
carbon
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„ sp hybridized carbon atoms are generally the most electronegative, while sp carbon atoms
are the least
„ From this, we can conclude that hydrogens bonded to sp carbons are generally the most
acidic, while those bonded to sp3 carbons are the least
Electron Delocalization and Acids/Bases
„ The pKa of a carboxylic acid is ~ 5
„ The pKa of an alcohol is ~ 16
„ There are two reasons for this difference:
ƒ The carboxylic acid has a doubly bonded oxygen in place of the two hydrogens in the
alcohol. The electronegative oxygen pulls the bonding electrons of the O-H bond away
from the proton making it easier to ionize
ƒ The conjugate base of the carboxylic acid is considerably more stable than the
conjugate base of the alcohol
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When an alcohol loses a proton all the electron density resides on the single oxygen atom
When the carboxylic acid loses a proton, the electron density is shared between the two
oxygen atoms
For acetate, the conjugate base of acetic acid, the electron density is shared by the two
oxygens - the electrons are delocalized
Delocalization of electrons stabilizes the base, making it less reactive
The negative charge of the ethoxide ion is localized on the single oxygen atom
Therefore, ethoxide ion is more basic than acetate ion, and
Acetic acid is a stronger acid than ethanol
Effect of pH on Structure
Whether a given organic acid will lose a proton in aqueous solution depends on pH of solution
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Chemistry 230
Chapter Three Notes
Organic Compounds as Bases
„ Organic molecules with available lone pairs may act as bases
„ Ethers and alcohols may act as bases in the presence of strong mineral acids
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They are not significantly protonated by weaker acids, like acetic acid
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What about carbonyls?
An Introduction to Curved Arrow Mechanisms
Organic chemists often employ a combination of curved arrows and molecular drawings to
illustrate the details of a reaction mechanism
„ This technique is extremely useful in predicting the products of a given chemical reaction
„ You will encounter many mechanisms in this course, and many more next semester
„ A regular curved arrow is understood to represent the movement of a pair of electrons
„ In general, electrons flow from a site which is “electron rich” to a site which is “electron poor”
by comparison
„ Curved arrows are always drawn away from the lone pair, towards the site which is electron
deficient
A proton transfer
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Chemistry 230
Chapter Three Notes
Draw curved-arrow mechanisms to illustrate proton transfer reactions between
Hydronium ion and bisulfide ion (SH-)
Acetylene (C2H2) and amide ion (NH2-)
Phenol and methoxide ion (CH3O-)
Acids & Bases in Nonaqueous Solutions
„ Suppose that, for a given reaction, we must use a base stronger than OH
ƒ Consider the deprotonation of an alkyne
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Water cannot be used as a solvent; it is more acidic than the alkyne
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Liquid ammonia (NH3) is an ideal solvent for the previous reaction
Very strong bases (NH2-, H-, R3C-, etc.) are incompatible with water and other polar protic
solvents, as they will attack the solvent
ƒ Protic solvents are those which contain bonds between hydrogen and electronegative
atoms (e.g. oxygen and hydrogen). Water and alcohols are the primary examples.
Problem 3.13 (p. 126) addresses this issue
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