Product at anode of the electrolysis of MgBr2

AI Thread Summary
The product at the anode during the electrolysis of MgBr2 is Br2 instead of O2 due to the kinetics of the reactions involved. Although the oxidation of OH- is thermodynamically favored, the slow evolution of oxygen requires a higher overpotential, which leads to the production of bromine at practical voltages. This phenomenon is also observed in brine solutions, where chlorine is produced despite oxygen being a potential product. The discussion highlights that oxygen evolution generally occurs slowly, allowing other products to form at higher potentials. Understanding these kinetics is crucial for exam preparation.
Janiceleong26
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1. Homework Statement
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Why is the product at anode Br2 for MgBr2? Instead of O2?

Homework Equations

The Attempt at a Solution


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The EΘ value for the oxidation of OH- is -0.40 V,
And that of Br- is -1.07V
And so, shouldn't oxidation of OH- be easier? And hence, O2 is formed at the anode?
 
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If memory serves me well, the explanation lies in the kinetics. In general yes, oxygen should be formed. In practice oxygen evolution is quite slow, so you need an overpotential to speed it up, which moves you into the voltages where Br2 is produced. It is the same with brine solutions, where you can easily smell chlorine despite the fact oxygen should evolve first.
 
Borek said:
If memory serves me well, the explanation lies in the kinetics. In general yes, oxygen should be formed. In practice oxygen evolution is quite slow, so you need an overpotential to speed it up, which moves you into the voltages where Br2 is produced. It is the same with brine solutions, where you can easily smell chlorine despite the fact oxygen should evolve first.
Woah I see.. How am suppose to know this during the exam ?
Anyways, thanks. Are there any other exceptions other than brine and MgBr2?
 
I believe oxygen in general evolves slowly, so whenever it is one of possible products, other things can be produced as well at higher potentials.

Note: I am not entirely sure about this explanation, take it with a grain of salt.
 
Borek said:
I believe oxygen in general evolves slowly, so whenever it is one of possible products, other things can be produced as well at higher potentials.

Note: I am not entirely sure about this explanation, take it with a grain of salt.
Alright, thanks!
 
Borek said:
If memory serves me well, the explanation lies in the kinetics. In general yes, oxygen should be formed. In practice oxygen evolution is quite slow, so you need an overpotential to speed it up, which moves you into the voltages where Br2 is produced. It is the same with brine solutions, where you can easily smell chlorine despite the fact oxygen should evolve first.

Thank you borek
 
Borek said:
If memory serves me well, the explanation lies in the kinetics. In general yes, oxygen should be formed. In practice oxygen evolution is quite slow, so you need an overpotential to speed it up, which moves you into the voltages where Br2 is produced. It is the same with brine solutions, where you can easily smell chlorine despite the fact oxygen should evolve first.
Thank you borek
 

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