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Chapter 14 Skeletal-Rearrangement Reactions Carbon-Carbon Rearrangements Carbon-Nitrogen Rearrangements Carbon-Oxygen Rearrangements Synthetic Applications Summary
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Chapter 14 Skeletal-Rearrangement Reactions Carbon-Carbon Rearrangements –Cationic Rearrangements 1,2 Hydrogen Shift, Wagner Meerwein alkyl migration, Pinacol –Anionic Rearrangements (rare, phenyl shift) –Pericyclic Rearrangements Molecular Orbital symmetry Previous examples Decarboxylation, and Diels-Alder Sigmatropic Shifts –1,5 Hydrogen and Carbon Shifts –1,3 Hydrogen and Carbon Shifts –3,3 Carbon Shifts (called Cope Rearrangement) Cope Rearrangement Electrocyclic Reactions
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Chapter 14 Skeletal-Rearrangement Reactions Carbon-Nitrogen Rearrangements 3 common features –A good leaving group attached to the heteroatom –A free lone pair of electrons on the heteroatom –a migrating group on an adjacent atom –The Beckmann Rearrangement converts a ketone to an amide, under mild conditions, does not go to the -CO 2 H group mechanism is via a nitrilium ion, resonance stabilized with lone pair the larger group migrates 3º alkyl > 2º alkyl, aryl > 1° alkyl > methyl –The Hofmann Rearrangement converts a primary amide to primary amine, with one fewer carbon
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Chapter 14 Skeletal-Rearrangement Reactions Carbon-Oxygen Rearrangements –The Baeyer-Villager Oxidation converts a ketone to an ester (or cyclic lactone) reagent is a peracid, such as CF 3 CO 3 H, CH 3 CO 3 H, or m-CPBA the larger group migrates (like the Beckmann rearrangement) 3º alkyl > 2º alkyl, aryl > 1° alkyl > methyl –The Claisen Rearrangement A Pericyclic rearrangement (like the Cope rearrangement) Occurs via a 6 membered cyclic intermediate
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Chapter 14 Skeletal-Rearrangement Reactions Synthetic Applications –Review Table 14.1 p723 Using Rearrangements to Prepare Various Functional Groups Review of Reactions Review of Reactions from Chapters 8-14 –Review Table 14.2 Summary of Synthetic Methods, very important for next Chapter know reactant, product, reaction conditions and reagents Summary
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Chapter 14 Summary Rearrangements result in changes in the connectivity in a carbon skeleton. Carbon-Carbon –Wagner-Meerwein, an alkyl group migrates, rearrangement via more stable intermediate (3º > 2º > 1º) –Anionic Rearrangements rare –Pericyclic Rearrangements controlled by molecular orbital symmetry rules (electrocyclic, cycloaddition and sigmatropic) Carbon-Nitrogen –Beckmann via nitrilium, converts oxime to amide, mild conditions, the larger group migrates 3º alkyl > 2º alkyl, aryl > 1° alkyl > methyl –Hofmann via isocyanate, converts amide to amine, one less carbon Carbon-Oxygen –Baeyer-Villiger, converts ketone to ester (lactone) with peracid, larger groups migrates 3º alkyl > 2º alkyl, aryl > 1° alkyl > methyl –Claisen, a Pericyclic reaction, like the Cope rearrangement
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