Why Are Specific Solvents Chosen for Sn2/Sn1, E2, and E1 Reactions?

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SUMMARY

The discussion focuses on the selection of solvents for SN2, SN1, E2, and E1 reactions, emphasizing the importance of solvent polarity and basicity. Participants argue that aprotic solvents like DMF are preferable for SN2 reactions to minimize competition from E2 reactions, particularly when secondary carbons are involved. The choice of solvents such as ethanol (EtOH) and water/methanol (H2O/CH3OH) is critiqued for potentially favoring E2 pathways due to the presence of strong bases like OH-. The acidity and basicity of the end products significantly influence the reaction's feasibility.

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alingy1
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Hi all,
I was looking at the answers in my textbook. They seem to make incongruent choices of solvents.

In e) and j), why choose EtOH and H2O/CH3OH? I would rather choose an aprotic solvent like DMF to better allow Sn2 to occur. Especially with j), there is a lot of competition with E2 because OH- is a strong base and because we are attacking a secondary carbon.
 

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I see this again in k). Secondary carbon attacked: why not add DMF to prevent E2 and get best yield?
 

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Depends on the acidity/basicity of the end product. A reaction proceeds towards the weaker base/acid. If your end products are more acidic or basic than the reactants, it will not occur.
 
Teemo, I don't see how an unreacting reagent can cause a change in acid base interactions.
 

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