What is esterification reaction write the name and structure of the production when ethanoic acid reacts with ethanol in presence of an acid catalyst
Answers
Step 1
In the first step, the ethanoic acid takes a proton (a hydrogen ion) from the concentrated sulphuric acid. The proton becomes attached to one of the lone pairs on the oxygen which is double-bonded to the carbon.
The transfer of the proton to the oxygen gives it a positive charge, but it is actually misleading to draw the structure in this way (although nearly everybody does!).
The positive charge is delocalised over the whole of the right-hand end of the ion, with a fair amount of positiveness on the carbon atom. In other words, you can think of an electron pair shifting to give this structure:
You could also imagine another electron pair shift producing a third structure:
So which of these is the correct structure of the ion formed? None of them! The truth lies somewhere in between all of them. One way of writing the delocalised structure of the ion is like this:
The double headed arrows are telling you that each of the individual structures makes a contribution to the real structure of the ion. They don't mean that the bonds are flipping back and forth between one structure and another. The various structures are known as resonance structures or canonical forms.
There will be some degree of positive charge on both of the oxygen atoms, and also on the carbon atom. Each of the bonds between the carbon and the two oxygens will be the same - somewhere between a single bond and a double bond.
Note: You will find a more pictorial look at a similar case to this in a page discussing the acidity of organic acids. Amongst other things, that page looks at the structure of ions like the ethanoate ions which also have delocalised charges.
Use the BACK button on your browser to return easily to this page.
For the purposes of the rest of this discussion, we are going to use the structure where the positive charge is on the carbon atom.
Step 2
The positive charge on the carbon atom is attacked by one of the lone pairs on the oxygen of the ethanol molecule.
Note: You could work out precisely why that particular oxygen carries the positive charge on the right-hand side. On the other hand, you could realise that there has to be a positive charge somewhere (because you started with one), and that particular oxygen doesn't look right - it has too many bonds. Put the charge on there!
That's a quick rough-and-ready reasoning which works every time I use it!
Step 3
What happens next is that a proton (a hydrogen ion) gets transferred from the bottom oxygen atom to one of the others. It gets picked off by one of the other substances in the mixture (for example, by attaching to a lone pair on an unreacted ethanol molecule), and then dumped back onto one of the oxygens more or less at random.
The net effect is:
Step 4
Now a molecule of water is lost from the ion.
The product ion has been drawn in a shape to reflect the product which we are finally getting quite close to!
The structure for the latest ion is just like the one we discusssed at length back in step 1. The positive charge is actually delocalised all over that end of the ion, and there will also be contributions from structures where the charge is on the either of the oxygens:
It is easier to follow what is happening if we keep going with the structure with the charge on the carbon.
Step 5
The hydrogen is removed from the oxygen by reaction with the hydrogensulphate ion which was formed way back in the first step.
And there we are! The ester has been formed, and the sulphuric acid catalyst has been regenerated.