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Conversion Of Alcohols To Chlorides With SOCl2 Proceeds With Inversion…Right? Well, Maybe Not Always

Some time ago I published this post about SOCl2 discussing the mechanism of SOCl2 converting secondary alcohols to alkyl chlorides with secondary  through an SN2 pathway:

SN2 versus SNi | Chemistry Optional Notes for UPSC

The mechanism showing inversion with SOCl2 is not what happens experimentally. When a secondary alcohol is treated with SOCl2 (and nothing else) the usual pathway is retention. 

The record should be set straight about this, so this post will cover:

  • What really happens in the reaction of SOCl2 with secondary alcohols (the SNi mechanism) and why it gives retention
  • Why adding pyridine to SOCl2 results in inversion (via SN2) and not retention
  • How do most textbooks and schools across North America deal with this mechanistic dichotomy (hint: most don’t)
  • What’s an instructor to do?

What Really Happens In The Reaction of SOCl2 With Secondary Alcohols: The SNi Mechanism

In the late 19th century, Paul Walden performed a series of fundamental experiments on the stereochemistry of various reactions of sugars (and sugar derivatives). Walden noted that when (+)-malic acid  treated with PCl5, the product was (–) chlorosuccinic acid – a process that proceeded with inversion of stereochemistry. When (+) malic acid was treated with thionyl chloride (SOCl2), however the product was (+)-chlorosuccinic acid. This proceeds with retention of stereochemistry. 

SN2 versus SNi | Chemistry Optional Notes for UPSC

How can we understand this?

The reaction of malic acid with PCl5 leading to inversion of stereochemistry is an example of what we now call the SN2 reaction, and Walden was the first to make the observation that the stereochemistry is inverted. In fact the process of stereochemical inversion observed during the SN2 reaction is sometimes called Walden inversion in his honor. By the time most students encounter SOCl2 in their courses, the SN2 is a familiar reaction.

What is much more curious is the  observation that malic acid treated with SOCl2 leads to substitution with retention.  Sharp readers may recall that “retention” of stereochemistry can be obtained if two successive SN2 reactions occur [double inversion = retention]. Perhaps that is what is going on here? Maybe the carboxylic acid of malice acid can act as a nucleophile in a first (intramolecular) SN2, and then Cl- coming in for the second?

Question for SN2 versus SNi
Try yourself:
What is the result of the reaction between SOCl2 and a secondary alcohol?
View Solution

Nucleophilic Substitution With Internal Return: SNi

Good idea – but this retention of configuration occurs even in cases where no group can possibly do an intramolecular SN2. There must be something else going on. And after a lot of experimental work, this is the best proposal we have:
Good idea – but this retention of configuration occurs even in cases where no group can possibly do an intramolecular SN2. There must be something else going on. And after a lot of experimental work, this is the best proposal we have:

SN2 versus SNi | Chemistry Optional Notes for UPSC

This is called, SNi (nucleophilic substitution with internal return): what happens here is that SOCl2 corrdinates to the alcohol, with loss of HCl and formation of a good leaving group (“chlorosulfite”). The chlorosulfite leaving group can spontaneously depart, forming a carbocation, and when it does so,  an “intimate ion pair” is formed, where the carbocation and negatively charged leaving group are held tightly together in space. From here, the chlorine can act as a nucleophile – attacking the carbocation on the same face from which it was expelled – and after expulsion of SO2, we have formation of an alkyl chloride with retention of configuration.

So the chlorosulfite leaving group (SO2Cl) is quite special in that it can deliver a nucleophile (chlorine) to the same face it departs from, with simultaneous loss of SO2.

Question for SN2 versus SNi
Try yourself:
What is the name of the nucleophilic substitution mechanism where the leaving group attacks the carbocation on the same face from which it was expelled?
View Solution

Why Adding SOCl2 AND Pyridine Leads To Inversion via The SN2 Mechanism

Here’s the twist.  As it turns out, the stereochemistry of this reaction can change to inversion if we add a mild base – such as pyridine.
Observation: When base is added, SOClnow gives inversion

SN2 versus SNi | Chemistry Optional Notes for UPSC

Retention of stereochemistry with SOCl2 alone, inversion with SOCl2 and pyridine. What’s happening here? How does pyridine affect the course of this reaction? 

Both reactions form the “chlorosulfite” intermediate. But when pyridine (a decent nucleophile) is present, it can attack the chlorosulfite, displacing chloride ion and forming a charged intermediate. Now, if the leaving group departs, forming a carbocation, there’s no lone pair nearby on the same face that can attack.

In other words, by displacing chloride ion, pyridine shuts down the SNi mechanism.

Adding Pyridine To SOCl2 Shuts Down The SNi Mechanism

Even though the SNi can’t occur here, we still have a very good leaving group, and a decent nucleophile – chloride ion – and so chloride attacks the carbon from the backside, leading to inversion of configuration and formation of a C-Cl bond. This, of course, the SN2 reaction.

Why inversion this time? Because pyridine displaces chlorine from sulfur, and "internal return" from the leaving group cannot occur
The result is an SN2 reaction!

SN2 versus SNi | Chemistry Optional Notes for UPSC

Summary: SOCl2 And Alcohols, With Or Without Pyridine – SN2 Versus SNi

The bottom line is this:
SOCl2 plus alcohol gives retention of configuration, SOCl2 plus alcohol plus pyridine gives inversion of configuration (SN2)

SN2 versus SNi | Chemistry Optional Notes for UPSC

Question for SN2 versus SNi
Try yourself:
What is the effect of adding pyridine to the reaction of SOCl2 with secondary alcohols?
View Solution

The document SN2 versus SNi | Chemistry Optional Notes for UPSC is a part of the UPSC Course Chemistry Optional Notes for UPSC.
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FAQs on SN2 versus SNi - Chemistry Optional Notes for UPSC

1. What is the reaction between SOCl2 and alcohols?
Ans. The reaction between SOCl2 and alcohols results in the conversion of alcohols to chlorides.
2. Does the conversion of alcohols to chlorides with SOCl2 always proceed with inversion?
Ans. No, the conversion of alcohols to chlorides with SOCl2 does not always proceed with inversion. It depends on the mechanism involved in the reaction.
3. What is the SNi mechanism?
Ans. The SNi (Substitution Nucleophilic internal) mechanism is a reaction mechanism where a nucleophile attacks a substrate, but before the leaving group is completely displaced, the nucleophile forms a bond with the substrate, creating a bridging intermediate.
4. How does adding pyridine to SOCl2 lead to inversion via the SN2 mechanism?
Ans. Adding pyridine to SOCl2 can lead to inversion via the SN2 (Substitution Nucleophilic bimolecular) mechanism by deactivating the SNi mechanism. Pyridine acts as a base and helps in the formation of the chloride ion, which promotes the SN2 mechanism leading to inversion.
5. What is the difference between SN2 and SNi mechanisms?
Ans. The SN2 mechanism is a bimolecular nucleophilic substitution reaction where the nucleophile attacks the substrate and displaces the leaving group in a single step, resulting in inversion of configuration. On the other hand, the SNi mechanism involves an intermediate formation where the nucleophile forms a bond with the substrate before the leaving group is completely displaced, resulting in retention or inversion of configuration depending on the reaction conditions.
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