Williamson Ether Synthesis of Phenacetin

Background:

Synthesize phenacetin from acetaminophen (Tylenol) via a Williamson ether synthesis.The Williamson ether synthesis is one of the simplest methods used to make ethers. The reaction is named after Alexander Williamson, who discovered the reaction in 1850. In this reaction, an alkoxide anion reacts with an alkyl halide via a substitution reaction.

                        RO^-Na⁺   +   R` – X   →   R-O-R`   +   NaX

Alkoxides are strong nucleophiles that tend to react via an S_N2 mechanism. As a result, the reaction works best with primary alkyl halides.

In a traditional Williamson ether synthesis, the alkoxide is generated by reacting sodium hydride (NaH) with an alcohol.

ROH   +   NaH    →    RO^-Na⁺   +   H₂

While this reaction is very efficient, it does pose a fire hazard, as it is possible for hydrogen gas to ignite.

In this lab, the alkoxide will be created using sodium hydroxide (NaOH). This is a much safer option, eliminating a substantial portion of the fire hazard. Most alcohols could not efficiently deprotonated by hydroxide, owing to the similar acidities of water and alcohols. However, our reaction requires removing a phenolic (ArOH) proton which is much more acidic than protons from alkyl-substituted alcohols.

compound	pKa
H2	36
ROH (aliphatic)	15-17
H2O	15.7
p-AcNH-C6H4-OH	9.5

  ArOH   +   OH^-    ⇄   ArO^-   +   H₂O

   pK_a =        9.5                                                     15.7

The equilibrium favors the right side of the equation. We will use an excess of sodium hydroxide and adequate reflux time to ensure the alkoxide is created and then reacts with bromoethane

Questions

aDraw and explain the detailed mechanisim of the reaction

bWill the reaction work equally well with primary, secondary and tertialry alkyl halides? explain

cWhy should the experimental set up be dismantled immediately after reaction is done?

dWhat is the limiting reagent of this reaction and why?

Transcribed Image Text:

Below is the balanced equation for this reaction. NH NH EtBr + NaOH + KBr + H,0 но