4. Write short notes on:
(a) Allylic rearrangement
(b) Vulcanization
(c) Stability of conjugated dienes
Answers
Answer:
Allylic rearrangement
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An allylic rearrangement or allylic shift is an organic reaction in which the double bond in an allyl chemical compound shifts to the next carbon atom. It is encountered in nucleophilic substitution.
In reaction conditions that favor a SN1 reaction mechanism, the intermediate is a carbocation for which several resonance structures are possible. This explains the product distribution (or product spread) after recombination with nucleophile Y. This type of process is called an SN1' substitution.
Alternatively, it is possible for nucleophile to attack directly at the allylic position, displacing the leaving group in a single step, in a process referred to as SN2' substitution. This is likely in cases when the allyl compound is unhindered, and a strong nucleophile is used. The products will be similar to those seen with SN1' substitution. Thus reaction of 1-chloro-2-butene with sodium hydroxide gives a mixture of 2-buten-1-ol and 3-buten-2-ol:
reaction of 1-chloro-2-butene with sodium hydroxide
Nevertheless, the product in which the OH group is on the primary atom is minor. In the substitution of 1-chloro-3-methyl-2-butene, the secondary 2-methyl-3-buten-2-ol is produced in a yield of 85%, while that for the primary 3-methyl-2-buten-1-ol is 15%.
In one reaction mechanism the nucleophile attacks not directly at the electrophilic site but in a conjugate addition over the double bond:
SN2 accent reaction mechanism
This is usual in allylic compounds which have a bulky leaving group in SN2 conditions or bulky non-leaving substituent which give rise to significant steric hindrance, thereby increasing the conjugate substitution. This kind of reaction is termed SN1' or SN2', depending on whether the reaction follows SN1-like mechanism or SN2-like mechanism. Similar to how there are SN1' and SN2' analogues for SN1 and SN2 reactions respectively, there also is an analogue for SNi, that being the SNi', applicable for reactions betwixt allylic compounds and reagents like SOCl2.