Section 2: Conjugated Dienes – Chapter 13
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Transcript of Section 2: Conjugated Dienes – Chapter 13
Section 2: Conjugated Dienes – Chapter 13
beta-carotene
Practice Problems:13.1 – 13.513.9 – 13.1413.15 – 13.2013.24 – 13.2513.29 – 13.3013.34 – 13.4213.47 – 13.4813.50
Omitted Sections:13.9
Rules for Writing Resonance Structures1. The double-headed arrow indicates resonance structures.
2. Resonance structures only exist on paper.
3. In writing resonance structures, we are only allowed to move electrons.
4. All of the structures must be proper Lewis structures.
5. All resonance structures must have the same number of unpaired electrons.
6. All atoms that are part of the delocalized p-electron system must lie in a plane or be nearly planar.
7. The energy of the actual molecule is lower than the energy that might be estimated for any contributing structure.
8. Equivalent resonance structures make equal contibution to the hybrid, and a system described by them has a large resonance stabilization.
9. The more stable a resonance structure is (by itself) the greater its contribution to the hybrid.
What Is A Resonance Hybrid?
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Rules for Estimating Resonance Structure Stability1. The more covalent bonds a structure has, the more stable it is.
2. Structures in which all of the atoms have a complete valence shell of electrons are especially stable and make large contributions to the hybrid.
3. Charge separation decreases stability.
Rules for Writing Resonance Structures1. The double-headed arrow indicates resonance structures. 2. Resonance structures only exist on paper. 3. In writing resonance structures, we are only allowed to move electrons. 4. All of the structures must be proper Lewis structures. 5. All resonance structures must have the same number of unpaired electrons.6. All atoms that are part of the delocalized p-electron system must lie in a
plane or be nearly planar. 7. The energy of the actual molecule is lower than the energy that might be
estimated for any contributing structure. 8. Equivalent resonance structures make equal contibution to the hybrid, and a
system described by them has a large resonance stabilization. 9. The more stable a resonance structure is (by itself) the greater its
contribution to the hybrid.
9a.The more covalent bonds a structure has, the more stable it is. 9b.Structures where all of the atoms have a complete valence shell of
electrons are especially stable and make large contributions to the hybrid. 9c.Charge separation decreases stability.
The Allyl Radical
Conjugated Alkenes
Progesterone an enone
Retinal (Vitamin A) an enal
Two alkenes that are isolated from one another by sp3 centres react (pretty much) like the parent alkenes. Conjugated and cumulated dienes exhibit special reactivity. The reactions of conjugated systems will be the focus of the rest of this section.
Importance of the Diels-Alder Reaction in Synthesis
plus many thousands more!
Some Facts About Dienes:1. A “normal-demand” Diels-Alder reaction is favoured by:
● electron-withdrawing groups in the dienophile● electron-donating groups on the diene
2. In a Diels-Alder reaction, the endo product dominates at low temperatures.
3. The “single bond” in a conjugated system is short.
4. Conjugated dienes are more stable than isolated dienes.
Why?
Why?
Why?
Why?
A Molecular Orbital Interaction Diagram for the DA Reaction
A Molecular Orbital Interaction Diagram for the DA Reaction
Kinetic Preference for the Endo Diels Alder Product
DieneHOMO
DienophileLUMO
CH3
H
H
O
OMe
H
H
H3C
O
MeO
OCH3
H
CH3
H
OCH3
H
CH3
HDieneHOMO
DienophileLUMO
Endo TS - favoured kinetically due to 2o orbital overlap
Exo TS - may (or may not) lead to a more stable product, but disfavoured kinetically