Why Does Chlorine Gas Form at the Anode in the Chlor-Alkali Process?

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In the chlor-alkali process, electrolysis of a saturated sodium chloride solution produces hydroxide ions (OH–) and chlorine gas (Cl2) at the anode. Chlorine gas forms instead of oxygen due to the concept of overpotential, which refers to the extra voltage required beyond the theoretical value predicted by the Nernst equation for a reaction to occur. The formation of oxygen gas at the anode is kinetically unfavorable and has a much higher overpotential compared to chlorine gas. This means that to generate oxygen, a significantly higher voltage must be applied, which can lead to competing reactions. Understanding overpotential is crucial as it explains why chlorine is preferentially produced during the electrolysis process, as it requires less energy to initiate the reaction compared to oxygen.
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Redox reaction...with a twist!

In the chlor-alkali process OH–(aq) and Cl2(g) are produced by the electrolysis of a saturated solution of sodium chloride. Explain why chlorine gas rather than oxygen gas forms at the anode.


The solution to the question has the word "Overpotential" and I tried googling the meaning and ended up confusing myself:S Could someone please explain to me how this thing works...?

Much Appreciated.
 
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Oxygen electrode reactions are slow (no idea about explanation, that's just the way they are). To speed them up you can apply higher potential (overpotential). However, when you apply higher potential, it may happen other things start to react.
 


Thx for your explanation, I think I understood that but could anybody explain why it happens that Oxygen has a much higher overpotential and could somebody clarify what overpotential means in the context of this question?
 


Overpotential means for the reaction to proceed you need to apply much higher potential than the one given by the Nernst equation. This difference (real minus Nernstian) is called overpotential.
 

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