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Conjugated Unsaturated Systems

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1 Conjugated Unsaturated Systems
Chapter 13 Conjugated Unsaturated Systems Copyright © 2014 by John Wiley & Sons, Inc. All rights reserved.

2 © 2014 by John Wiley & Sons, Inc. All rights reserved.
1. Introduction A conjugated system involves at least one atom with a p orbital adjacent to at least one p bond e.g. © 2014 by John Wiley & Sons, Inc. All rights reserved.

3 © 2014 by John Wiley & Sons, Inc. All rights reserved.
2B. Resonance Description of the Allyl Radical © 2014 by John Wiley & Sons, Inc. All rights reserved.

4 © 2014 by John Wiley & Sons, Inc. All rights reserved.
3. The Allyl Cation Relative order of carbocation stability © 2014 by John Wiley & Sons, Inc. All rights reserved.

5 © 2014 by John Wiley & Sons, Inc. All rights reserved.
In writing resonance structures, we are only allowed to move electrons resonance structures not resonance structures © 2014 by John Wiley & Sons, Inc. All rights reserved.

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All of the structures must be proper Lewis structures X 10 electrons! not a proper Lewis structure © 2014 by John Wiley & Sons, Inc. All rights reserved.

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All resonance structures must have the same number of unpaired electrons X © 2014 by John Wiley & Sons, Inc. All rights reserved.

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The more stable a structure is (when taken by itself), the greater is its contribution to the hybrid © 2014 by John Wiley & Sons, Inc. All rights reserved.

9 © 2014 by John Wiley & Sons, Inc. All rights reserved.
4B. How to Estimate the Relative Stability of Contributing Resonance Structures The more covalent bonds a structure has, the more stable it is © 2014 by John Wiley & Sons, Inc. All rights reserved.

10 © 2014 by John Wiley & Sons, Inc. All rights reserved.
Structures in which all of the atoms have a complete valence shell of electrons (i.e., the noble gas structure) are especially stable and make large contributions to the hybrid this carbon has 6 electrons this carbon has 8 electrons © 2014 by John Wiley & Sons, Inc. All rights reserved.

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Charge separation decreases stability © 2014 by John Wiley & Sons, Inc. All rights reserved.

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5. Alkadienes & Polyunsaturated Hydrocarbons Alkadienes (“Dienes”) © 2014 by John Wiley & Sons, Inc. All rights reserved.

13 © 2014 by John Wiley & Sons, Inc. All rights reserved.
Alkatrienes (“Trienes”) © 2014 by John Wiley & Sons, Inc. All rights reserved.

14 © 2014 by John Wiley & Sons, Inc. All rights reserved.
Alkadiynes (“Diynes”) Alkenynes (“Enynes”) © 2014 by John Wiley & Sons, Inc. All rights reserved.

15 © 2014 by John Wiley & Sons, Inc. All rights reserved.
Cumulenes enantiomers © 2014 by John Wiley & Sons, Inc. All rights reserved.

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Conjugated dienes Non-conjugated dienes (isolated alkenes) © 2014 by John Wiley & Sons, Inc. All rights reserved.

17 © 2014 by John Wiley & Sons, Inc. All rights reserved.
6. 1,3-Butadiene: Electron Delocalization 6A. Bond Lengths of 1,3-Butadiene 1.47 Å 1.34 Å sp sp3 sp3 sp2 sp3 1.54 Å 1.50 Å 1.46 Å © 2014 by John Wiley & Sons, Inc. All rights reserved.

18 © 2014 by John Wiley & Sons, Inc. All rights reserved.
6B. Conformations of 1,3-Butadiene trans single bond single bond cis © 2014 by John Wiley & Sons, Inc. All rights reserved.

19 © 2014 by John Wiley & Sons, Inc. All rights reserved.
7. The Stability of Conjugated Dienes Conjugated alkadienes are thermo-dynamically more stable than isomeric isolated alkadienes © 2014 by John Wiley & Sons, Inc. All rights reserved.

20 © 2014 by John Wiley & Sons, Inc. All rights reserved.

21 © 2014 by John Wiley & Sons, Inc. All rights reserved.
9. Electrophilic Attack on Conju-gated Dienes: 1,4-Addition © 2014 by John Wiley & Sons, Inc. All rights reserved.

22 © 2014 by John Wiley & Sons, Inc. All rights reserved.
X Mechanism (a) (b) © 2014 by John Wiley & Sons, Inc. All rights reserved.

23 © 2014 by John Wiley & Sons, Inc. All rights reserved.
9A. Kinetic Control versus Thermodynamic Control of a Chemical Reaction © 2014 by John Wiley & Sons, Inc. All rights reserved.

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25 © 2014 by John Wiley & Sons, Inc. All rights reserved.

26 © 2014 by John Wiley & Sons, Inc. All rights reserved.
10. The Diels–Alder Reaction: A 1,4-Cycloaddition Reaction of Dienes © 2014 by John Wiley & Sons, Inc. All rights reserved.

27 © 2014 by John Wiley & Sons, Inc. All rights reserved.
e.g. © 2014 by John Wiley & Sons, Inc. All rights reserved.

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10A. Factors Favoring the Diels–Alder Reaction Type A and Type B are normal Diels-Alder reactions © 2014 by John Wiley & Sons, Inc. All rights reserved.

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Type C and Type D are Inverse Demand Diels-Alder reactions © 2014 by John Wiley & Sons, Inc. All rights reserved.

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Relative rate © 2014 by John Wiley & Sons, Inc. All rights reserved.

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Relative rate © 2014 by John Wiley & Sons, Inc. All rights reserved.

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Steric effects © 2014 by John Wiley & Sons, Inc. All rights reserved.

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10B. Stereochemistry of the Diels–Alder Reaction The Diels–Alder reaction is stereospecific: the reaction is a syn addition, and the configuration of the dienophile is retained in the product © 2014 by John Wiley & Sons, Inc. All rights reserved.

34 © 2014 by John Wiley & Sons, Inc. All rights reserved.

35 © 2014 by John Wiley & Sons, Inc. All rights reserved.
The diene, of necessity, reacts in the s-cis rather than in the s-trans conformation X © 2014 by John Wiley & Sons, Inc. All rights reserved.

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e.g. © 2014 by John Wiley & Sons, Inc. All rights reserved.

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Cyclic dienes in which the double bonds are held in the s-cis conformation are usually highly reactive in the Diels–Alder reaction Relative rates: © 2014 by John Wiley & Sons, Inc. All rights reserved.

38 © 2014 by John Wiley & Sons, Inc. All rights reserved.
The Diels–Alder reaction occurs primarily in an endo, rather than an exo, fashion when the reaction is kinetically controlled R is exo longest bridge R is endo © 2014 by John Wiley & Sons, Inc. All rights reserved.

39 © 2014 by John Wiley & Sons, Inc. All rights reserved.
Alder-Endo Rule If a dienophile contains activating groups (group X) with p bonds they will prefer an ENDO orientation in the transition state © 2014 by John Wiley & Sons, Inc. All rights reserved.

40 © 2014 by John Wiley & Sons, Inc. All rights reserved.
e.g. © 2014 by John Wiley & Sons, Inc. All rights reserved.

41 © 2014 by John Wiley & Sons, Inc. All rights reserved.
Stereospecific reaction © 2014 by John Wiley & Sons, Inc. All rights reserved.

42 © 2014 by John Wiley & Sons, Inc. All rights reserved.
Stereospecific reaction © 2014 by John Wiley & Sons, Inc. All rights reserved.

43 © 2014 by John Wiley & Sons, Inc. All rights reserved.
Examples © 2014 by John Wiley & Sons, Inc. All rights reserved.

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Diene A reacts 103 times faster than diene B even though diene B has two electron-donating methyl groups © 2014 by John Wiley & Sons, Inc. All rights reserved.

45 © 2014 by John Wiley & Sons, Inc. All rights reserved.
Examples © 2014 by John Wiley & Sons, Inc. All rights reserved.

46 © 2014 by John Wiley & Sons, Inc. All rights reserved.
Examples Rate of Diene C > Diene D (27 times), but Diene D >> Diene E In Diene C, tBu group  electron donating group  increase rate In Diene E, 2 tBu group  steric effect, cannot adopt s-cis conformation © 2014 by John Wiley & Sons, Inc. All rights reserved.

47 © 2014 by John Wiley & Sons, Inc. All rights reserved.
10C. How To Predict the Products of a Diels–Alder Reaction © 2014 by John Wiley & Sons, Inc. All rights reserved.

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10D. How to Use a Diels–Alder Reaction in a Retrosynthetic Analysis Retrosynthesis © 2014 by John Wiley & Sons, Inc. All rights reserved.

49 © 2014 by John Wiley & Sons, Inc. All rights reserved.
Solution Note: use EWG’s on dienophile to ensure a facile D.A. reaction at low temperature; using methyl groups directly would be a more difficult reaction © 2014 by John Wiley & Sons, Inc. All rights reserved.


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