Mechanisms of Alkenes
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Transcript of Mechanisms of Alkenes
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Mechanisms of Alkenes
Electrophilic Addition Reactions
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Understanding the basics…• Mechanisms are the most mind-
boggling part of organic chemistry. • Students, generally speaking, have
spent their time memorizing their way through science courses.
• Mechanisms require a student to actually UNDERSTAND the fundamentals of electron flow…
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• Everyone knows that electrons are negatively charged.
• Everyone knows that electrons are attracted to things with positive charges.
• Yet, the understanding of a “mechanism” remains elusive to many students…
• Let’s review the basics…
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• Electron flow is always from the electron-rich to the electron-poor species.
• The electron-rich species is a Lewis Base (must have a lone pair) and is called the “nucleophile”.
• The electron-poor species is a Lewis Acid (must have empty orbital) and is called the “electrophile”.
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• SO – electron flow is always from Nucleophile to Electrophile.
• Watch the direction of your arrows– from lone pairs to carbocation… – or anion to cation… – or anion to partial positive charge… – or alkene pi bond to cation or partial
positive charge…
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• When working through a mechanism, the goal is NOT to memorize the steps of a mechanism OF A SPECIFIC MOLECULE– when you do that, typically you become too focused on the structures provided in one example.
• When that happens, you get confused when the next mechanism problem has a DIFFERENT structure.
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• What you want to do is break down the steps of the mechanism, into little parts or steps.
• These basic little steps can be memorized.
• By knowing the steps, you know how the mechanism progresses, regardless of the structure you are given to work with.
• SO – break them down…
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Dehydration of AlcoholsIdentify this mechanism – Starts with
alcohol, ends with alkene…OH
H++ H2O
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Dehydration of AlcoholsSteps Involved:– Convert –OH to H2O– Loss of H2O and Carbocation formation– Removal of H+, resulting in formation of
pi bond to complete conversion to alkene
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Dehydration of AlcoholsStep 1: Convert –OH to H2O
OHH+ O
H H
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Dehydration of AlcoholsStep 2: Loss of H2O (“spontaneous
dissociation”) to form carbocation
+ H-O-HO
H H
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Dehydration of AlcoholsStep 3: Removal of H+, resulting in
formation of pi bond to complete conversion to alkene
+ H-O-H+ H-O-H
H H
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Acid-Catalyzed Hydration
Identify this mechanism – Starts with alkene, ends with alcohol…
H+, H2OOH
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Acid-Catalyzed HydrationSteps Involved:– Reaction of pi bond with H+ (acid cat.)
resulting in Carbocation formation– Addition of H2O– Removal of extra proton (H+) to finish
formation of –OH.
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Acid-Catalyzed HydrationStep 1: Reaction of pi bond with H+
(acid cat.) resulting in Carbocation formation
H+
H
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Acid-Catalyzed HydrationStep 2: Addition of H2O
OH H
+ H-O-H
H H
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Acid-Catalyzed HydrationStep 3: Removal of extra proton (H+)
to finish formation of –OH.
+ H-O-HOHO
H H + H-O-H
HH
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Addition of H-XIdentify this mechanism – Starts with
alkene, ends with single halide…
H-XX
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Addition of H-XSteps Involved:– Reaction of pi bond with H+ (of H-X),
concurrent separation of X-, and formation of carbocation intermediate.
– Attack of X- to finish formation of product.
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Addition of H-XStep 1: Reaction of pi bond with H+ (of
H-X), concurrent separation of X-, and formation of carbocation intermediate.
H X + XH
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Addition of H-XStep 2: Attack of X- to finish formation
of product.
H X H
X
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Addition of X2
Identify this mechanism – Starts with alkene, ends with two halides…
X2X
X
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Addition of X2
Steps Involved:– Attack by pi bond on polarized X-X with
Halonium Ion formation– Attack of X- to pop open three-
membered ring and finish formation of product.
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Addition of X2
Step 1: Attack by pi bond on polarized X-X with Halonium Ion formation
+ XX X
X
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Addition of X2
Step 2: Attack of X- to pop open three-membered ring and finish formation of product.
X
X
X
X
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Addition of X2
Of course, you can “attack” the other end of the halonium and open in the other direction…
X
XX+ X
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Addition of X2 and H2OIdentify this mechanism – Starts with
alkene, ends with one alcohol and one halide…
+ HXX2OH
XH2O
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Addition of X2 and H2OSteps Involved:– Attack by pi bond on polarized X-X with
Halonium Ion formation– Attack by H2O to pop open three-
membered ring.– Removal of extra proton (H+) by X- to
complete the formation of –OH.
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Addition of X2 and H2OStep 1: Attack by pi bond on polarized
X-X with Halonium formation
+ XX X
X
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Addition of X2 and H2OStep 2: Attack by H2O to pop open
three-membered ring.
+ X+ H-O-H
X
O
X
H H
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Addition of X2 and H2OStep 3: Removal of extra proton (H+)
by X- to complete the formation of –OH.
+ X
X
OH H
X
OH
+ H-X
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AND REMEMBER…If you UNDERSTAND the basic steps to
these mechanisms, it won’t matter what the double bond in the molecule looks like...
Every alkene reacts the same way, every time, regardless of what’s attached…
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Finally…Track the pieces you need to add or
subtract overall… See where you are starting and where you are ending…
Don’t memorize a specific molecule but go ahead and memorize the sequence of steps involved… it won’t matter what the alkene looks like if you approach it this way…