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Beckmann Rearrangement | Chemistry Optional Notes for UPSC PDF Download

Description

The Beckmann rearrangement is a reaction of oximes that can result in either amides or nitriles, depending on the starting material. (Oximes derived from ketones give amides; oximes derived from aldehydes provide nitriles)
Beckmann Rearrangement | Chemistry Optional Notes for UPSC

Notes

Note that the first step (formation of the oxime) is technically not part of of the Beckmann rearrangement. The Beckmann is the rearrangement of the oxime to the amide. This is generally achieved through conversion of the oxime oxygen to a good leaving group, followed by heat, which results in an alkyl (or hydride) shift, breaking the weak N-O bond. The second step involves trapping of the carbon with water (forming an amide) or, if a hydride shift occurred, deprotonation of nitrogen to give a nitrile.

Examples

Beckmann Rearrangement | Chemistry Optional Notes for UPSC

Notes

The Beckmann rearrangement is achieved by converting the oxygen of the oxime to a good leaving group, and then heating. In the first example, treatment of the ketone with NH2OH forms the oxime, and then in step 2, heating with acid leads to the Beckmann rearrangement. In the second example, after formation of the oxime, it is treated with Ac2O (converting the oxime oxygen to an acetate, a better leaving group than OH) and then heating. The third example is a Beckmann rearrangement on an oxime derived from an aldehyde, which results in a nitrile.

Question for Beckmann Rearrangement
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What is the purpose of acid in the Beckmann rearrangement reaction?
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Mechanism

  • The first step in the process is formation of an oxime from the aldehyde or ketone, which occurs in a sequence similar to formation of imines and hydra zones. In the first step, the nitrogen adds to the carbonyl carbon (Step 1, arrows A and B) followed by proton transfer (Step 2, arrows C and D). Then, the lone pair of nitrogen displaces the hydroxide in an elimination reaction (Step 3, arrows E and F) and finally the nitrogen is deprotonated by base (Step 4, arrows G and H) to give the oxime.
    Beckmann Rearrangement | Chemistry Optional Notes for UPSC
  • In the Beckmann rearrangement step, the oxime oxygen is protonated by acid (Step 1, arrows A and B). This leads to formation of OH2+, which is a much better leaving group than OH. Now comes the key step, rearrangement. The C-C bond breaks, migrating to the nitrogen, forming a new C-N bond and displacing the water as a leaving group (Step 2, arrows C and D). This forms a free carbocation, which is then attacked by water (Step 3, arrow E). The positively charged oxygen is deprotonated by base (Step 4, arrows F and G) to give the tautomer of the amide. Steps 5 and 6 represent “tautomerization”. First, protonation occurs at nitrogen (Step 5, arrows H, I and J), followed by deprotonation of oxygen (Step 6, arrows K and L). This gives the amide.
    Beckmann Rearrangement | Chemistry Optional Notes for UPSC

Notes

  • The key rearrangement step (Step 2) is similar to the rearrangement step in other rearrangement reactions (such as hydride and alkyl shifts, as well as the Curtius, Schmidt, and Wolff rearrangements). This is an alkyl shift, accompanied by loss of the leaving group.
  • The purpose of the acid is to make the oxygen a better leaving group; the O-N bond is weak.
  • Note that although HOSO3is shown as the base here, it’s very possible that other species can act as the base. Also, the ‘proton transfer’ step shown in oxime formation can be shown as two different steps, instead of the one.
  • For nitrile formation, the key step is a hydride shift, followed by deprotonation of the nitrogen. This gives the nitrile.
    Beckmann Rearrangement | Chemistry Optional Notes for UPSC

Question for Beckmann Rearrangement
Try yourself:
Which compound is formed when an oxime derived from a ketone undergoes the Beckmann rearrangement?
View Solution
 

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FAQs on Beckmann Rearrangement - Chemistry Optional Notes for UPSC

1. What is the Beckmann rearrangement?
Ans. The Beckmann rearrangement is a chemical reaction that involves the conversion of a ketoxime into an amide by rearranging the functional groups. It is typically carried out by treating the ketoxime with a strong acid, such as sulfuric acid or hydrochloric acid, which promotes the rearrangement of the atoms.
2. What is the mechanism of the Beckmann rearrangement?
Ans. The mechanism of the Beckmann rearrangement involves several steps. First, the acid protonates the oxygen atom of the ketoxime, forming a positively charged intermediate. This intermediate then undergoes rearrangement, where the carbon-nitrogen bond is broken and a new carbon-oxygen bond is formed. Finally, another molecule of acid removes a proton from the nitrogen atom, resulting in the formation of the amide product.
3. What are the applications of the Beckmann rearrangement?
Ans. The Beckmann rearrangement has several applications in organic synthesis. It is commonly used to convert ketoximes into amides, which are important building blocks in the synthesis of pharmaceuticals, agrochemicals, and other fine chemicals. The rearrangement can also be used in the synthesis of lactams, which are cyclic amides found in various natural products and drugs.
4. Are there any limitations or challenges associated with the Beckmann rearrangement?
Ans. Yes, there are some limitations and challenges associated with the Beckmann rearrangement. One limitation is the requirement for strong acids, which can be corrosive and difficult to handle. Additionally, certain substrates may not undergo the rearrangement efficiently, leading to low yields or the formation of side products. The reaction conditions, such as temperature and concentration, also need to be carefully controlled to achieve optimal results.
5. Are there any alternative methods for achieving similar transformations as the Beckmann rearrangement?
Ans. Yes, there are alternative methods for achieving similar transformations as the Beckmann rearrangement. One such method is the Schmidt reaction, which involves the conversion of a ketone or aldehyde into an amide using hydrazoic acid. Another method is the Curtius rearrangement, which converts an acyl azide into an isocyanate, which can then react with an alcohol or amine to form an amide. These alternative methods offer different reaction conditions and substrate scopes, providing additional options for organic synthesis.
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