Q35E
Question
Question: When the alcohol below is treated with and pyridine, the expected elimination product is formed. However, when the same alcohol is treated with , the elimination product is 1,2-dimethylcyclopentene. Propose a mechanism for each pathway to account for these differences.
Step-by-Step Solution
Verifieda.
b.
It is the process of removal of the halide to form an alkene. It is a single-step process without the formation of an intermediate.
E2 elimination not able to form alkene from alcohol because removal of hydroxyl is difficult so first react with to form halide the removal of halide occurs.
The alcohol hydroxyl group reacts with the to form dicholorophosphate intermediate followed by the E2 elimination in the presence of the amine base and pyridine which abstract proton at the same time dichlorophosphate is leaving and alkene formation occurs as shown:
Formation of compound A
The reaction of alcohol with sulphuric acid leads to the removal of the hydroxyl group by the loss of water molecule and the formation of carbocation occur
As we know four-membered is less stable than a five-membered ring so ring expansion occurs and the four-membered ring is rearranged into five membered rings.
Then, abstraction of the proton occurs which leads to the formation of alkene as shown below:
Formation of compound B