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DIELS ALDER REACTION
ANTONY P F1
“There a lot of potential for aggressive expansion”-joker
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DIELS ALDER REACTIONMECHANISUMEXAMPLESTEREO CHEMISTRYAPPLICATION
CONTENTS
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HISTORY The Diels-Alder reaction is a method of
producing cyclical organic compounds (cycloaddition reaction), and is named for Otto Diels and Kurt Alder who in 1950 received the Nobel Prize for their experiments.
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pericyclic
cycloaddition
Diels alder
reaction
Electrocyclic
Sigmatropic
Group transfer
chelotropic
Pericyclic reaction initiated by heat or light and do not need any other reagent or chemical species
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Cyclo addition
4+2
2+24+4
6+4
Diels alder reaction
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Diels alder reaction is a [4+2] cycloaddition reaction
The Diels-Alder reaction is an addition reaction between a 1,3-diene and an alkene or alkyne (called a dienophile), to form a new ring.
dienophile: Diene-loving
DIELS ALDER REACTION
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Diene : diene are electron rich compound. In the presence of electron releasing groups such as alkyl,phenyl,or alkoxy groups may further enhance the reactivity of diene
Dienophile: the most common dienophiles are the electron poor alkenes and alkyne. A good dienophile generally has one or more electron-withdrawing groups(CHO,COOH,CN) pulling electron density away from the Π bond
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MECHANISUM
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All Diels-Alder reactions have the following features in common:
1. They are initiated by heat; that is, the Diels-Alder reaction is a thermal reaction.
2. They form new six-membered rings.3. Three bonds break, and two new C—C bonds
and one new C—C bond forms.4. All old bonds are broken and all new bonds are
formed in a single step
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Energy increasing order
S-S S-A=A-S A-A
CLASSIFICATION OF ORBITAL INTERACTION
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ORBITALS OF ETLYENE AND BUTA DI ENE
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INTERACTION OF ORBITALSDiels alder reaction initiated by thermally, in the case of thermal reaction we consider the interaction between HOMO of diene and LUMO of dienophile or LUMO-HOMO interaction
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system thermal photochemical4n+2 S-S S-A
4n S-A S-S
Depending upon nature and interaction of system we can predict weather the reaction thermal or photochemical
Diels alder reaction 4n+2 systems supra-supra interaction so that the reaction is thermally allowed reaction
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CORRILATION DIAGRAMGround state orbitals of reactants correlate with the ground state orbitals of product. Therefore the Diels alder reaction is thermally allowed
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Several rules govern the Diels-Alder reaction.1. The diene can react only when it adopts the s-cis
conformation.
This rotation is prevented in cyclic alkenes. When the two double bonds are constrained to an s-cis conformation, the diene is unusually reactive. When the two double bonds are constrained in the s-trans conformation, the diene is unreactive.
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2.When endo and exo products are possible, the endo product is preferred.(alder rule)•Consider the reaction of 1,3-cyclopentadiene with ethylene. A new six-membered ring forms and above the ring there is a one atom “bridge.”
In transition state the electron withdrawing group(z) is more closer to diene, the product become more stable. In the case of bridge carbon ring system endo product more stable then exo
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•When cyclopentadiene reacts with a substituted alkene as the dienophile (CH2=CHZ), the substituent Z can be oriented in one of two ways in the product.
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ACYCLIC COMPOUND
CyclohexeneEthylene1,3-Butadiene
200°Cpressure
3-Buten-2-one
140°C+
1,3-Butadiene
O O
+
2,3-Dimethyl-1,3-butadiene
+ 30°C
3-Buten-2-one
O O
EXAMPLE
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COOCH3
COOCH3 COOCH3
COOCH3A cis
dienophile)Dimethyl cis-4-cyclohexene- 1,2-dicarboxylate
+
COOCH3
H3COOC COOCH3
COOCH3A trans
dienophile)Dimethyl trans-4-cyclohexene-
1,2-dicarboxylate(racemic)
+
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CYCLIC COMPOUND
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+
CO2CH3
heat
CO2CH3
+
CO2CH3
CO2CH3
heat
CO2CH3
CO2CH3
+
O
O
heat
O
O
H
H
+
O
O
H
H
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•When heated, dicyclopentadiene undergoes a retro Diels-Alder reaction, and two molecules of cyclopentadiene are re-formed.•If the newly produced cyclopentadiene is immediately treated with a different dienophile, it reacts to form a new Diels-Alder adduct with this dienophile. •This is how cyclopentadiene used in Diels-Alder reactions is produced.
The Retro Diels-Alder Reaction
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CO2CH2CH3
+
CO2CH2CH3
O
ClCl
O
O
Cl
Cl
+ O
O
O
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STEREO CHEMISTRY
The diels alder reaction is stereospecific. Substituents that are cis in dienophile remain cis in product. It is same in the case of trans.
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The stereochemistry of the dienophile is retained.
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APPLICATION
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1.Use for the synthesis of steroids
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2. Use for the synthetic equivalent of unreactive species
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3. Use for the aromatic stabilization
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hexachlorocyclopentadiene
4.Use for the synthesis of flame retardant
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5.Use for the synthesis of pesticide
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