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Topic: p-aminophenol N-Acylation mechanism question  (Read 28419 times)

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Offline [V]

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p-aminophenol N-Acylation mechanism question
« on: October 10, 2011, 02:29:08 PM »

In the reaction with p-aminophenol & acetic anhydride (under an acidic environment), one of the C=O bonds gets protonated in acetic anhydride leaving a carbocation and an R-OH. This is how I learned this mechanism when making aspirin (O-Acylation). In this diagram, it shows Nitrogen attacking the sp2 hybridized (s+) carbon, which is slightly different than what I described. It looks more like an Sn2 reaction in this image. Is it safe to say both mechanisms happen in solution?

Anyways, thats not really my question
The mechanism is called N-acylation. I understand how this mechanism proceeds, but I do not understand why Nitrogen acts as the nucleophile rather than the O from the R-OH on the benzene ring. R-OH has two lone pairs and is Sp3 hybridized. Meanwhile, The amine group has one electron pair, but I would say it is sp2 hybridized. The reason I say this, is because the lone electron pair must be delocalized from its orbital by the benzene ring next to it. Won't this make Nitrogen an even weaker base/nucleophile?

The oxygen has 2 Sp3 hybridized lone pairs. What factors should I be comparing to decide which will act as a better nucleophile? Oxygen has a higher electron density. But it also is more electro negative, so it wants to hold on to those electron pairs. Its also more polarizable.

Nitrogen is less electronegative, and is more willing to attack an electrophile with its lone pairs....but its lone pair is already pretty delocalized by the benzene ring.

What am I missing? Thank you!

Offline Honclbrif

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Re: p-aminophenol N-Acylation mechanism question
« Reply #1 on: October 10, 2011, 02:45:04 PM »
In general, amines are more basic and nucleophilic than hydroxyls because N can better stabilize a positive charge than O can (the flip side of this is that OH's tend to be better acids than NH's). As for delocalization, you've got two pretty good donating groups fighting with one another so you can't count either pair as totally delocalized.

With regards to the Sn2-like reaction mechanism drawn: I'd hazard that someone somewhere got lazy and didn't want to draw the tetrahedral intermediate.
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Offline ironman2538

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Re: p-aminophenol N-Acylation mechanism question
« Reply #2 on: February 13, 2013, 11:19:47 AM »
Thats one of the reason why you use basic buffer to keep the pH of the solution basic

Offline opsomath

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Re: p-aminophenol N-Acylation mechanism question
« Reply #3 on: February 13, 2013, 12:53:21 PM »
The mechanism as shown is incorrect, it should go through the tetrahedral intermediate. All else being equal, nitrogen is a much better nucleophile than oxygen; N is less electronegative, so the lone pair on the atom is higher in energy and more able to donate to another center.

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