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(d) Dehydration removal of water
In process of dehydration inter mediate carbocation formation takes place so that always remember reactivity of alcohols towards dehydration due to intermediate stability is 3°>2°>1°>CH3
OH more the stability of intermediate higher is the reactivity of the initial compound
(vi) Molecular rearrangement reaction
For the stability of the molecule molecular rearrangement occurs in different chemical reactions alkyl shift and hydride shifts are most common rearrangement. Takes place in carbocation which is known as
Wagner's rearrangement.
Reactions involving the change in the carbon skeleton through the rearrangement of the carbonium intermediate by alkyl and hydride shift collectively known as
Wagner–Meerwein rearrangement.
When neopentyl bromide is hydrolysed under SN
1 (due to bulky alkyl group) condition it is found that instead of the expected neopentyl alcohol (Me3CCH2OH), due to alkyl shift, 2-methyl-butan-2-ol and 2-methyl but-2-ene are formed.
Similarly, neopentyl alcohol on dehydration by the formation of carbocation gives 2-methyl-but-2-ene and 2-methyl-but-1-ene here alkyl shifts occurs in the carbocation.
In above cases, changes in the carbon skeleton are observed for stability. Such rearrangement was first observed in many bicyclic compounds.
Mechanism of the dehydration of alcohol is discussed below, and also in elimination reactions, later in this book.
Mechanism
Protonation of the hydroxyl group of the alcohol followed by the loss of water molecule to give a 1° carbocation. The 1° carbocation undergo rearrangement to form more stable 3° carbocation by 1, 2-alkyl shift before the product is formed. Finally
occurs and products are formed according to saytzeff's rule.
3, 3-dimethyl-2-bromo butane (neopentyl type) undergoes SN1 hydrolysis with rearrangement due to stability factor.
While its phenyl analogue gives product without rearrangement because it is already stable by conjugation.
The benzilic cation is stabilised by the phenyl group through delocalization and so their is no rearrangement. Rearrangement in the alicyclic system may involve migration of ring methylene group resulting in the ring expansion and contraction.
Some simpler examples are:
Ring expansion takes place due to molecular strain.
Ring expansion takes place because small rings are under strain so they tends to convert into stable ring. Stability of these rings are
The aryl group migrates faster than alkyl group. Normally electron-releasing group in the aryl group increases the attitude of migration while electron-attracting nature decreases the rate of migration. So that elimination is much faster in neophenyl bromide than in neopentyl bromide.
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