Oxidizing Agents

If one reagent in a reaction contributes oxygen, extracts hydrogen, or extracts electrons, it is said to be an oxidizing agent. Of course, it is reduced in the process. Since oxidation and reduction are symmetric processes, always occurring together, there is always an oxidizing agent and a reducing agent in the reaction. Since both are always present, why bother with this terminology?

If oxidation of some substance is the desired end, then it is useful to find an agent which will readily accomplish the oxidation. Useful oxidizing agents are bleaches and antiseptics. Not so useful is the action of oxygen in the air in the corrosion of metals by oxidation.

The relative strengths of oxidizing agents can be inferred from their standard electrode potentials. The strongest oxidizing agents are shown from the standard electrode table.

Cathode (Reduction)
Half-Reaction
Standard Potential
E° (volts)
MnO4-(aq) + 8H+(aq) + 5e- -> Mn2+(aq) + 4H2O(l)
1.49
H2O2(aq) + 2H+(aq) + 2e- -> 2H2O(l)
1.78
Co3+(aq) + e- -> Co2+(aq)
1.82
S2O82-(aq) + 2e- -> 2SO42-(aq)
2.01
O3(g) + 2H+(aq) + 2e- -> O2(g) + H2O(l)
2.07
F2(g) + 2e- -> 2F-(aq)
2.87

Fluorine, having the largest positive value of electrode potential, is the strongest oxidizing agent.

Index

Oxidation/
Reduction concepts


Reference
Hill & Kolb
Ch 8
 
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Reducing Agents

If one reagent in a reaction removes oxygen, contributes hydrogen, or contributes electrons, it is said to be a reducing agent. Of course, it is oxidized in the process. Since oxidation and reduction are symmetric processes, always occurring together, there is always an oxidizing agent and a reducing agent in the reaction. Since both are always present, why bother with this terminology?

If reduction of some substance is the desired end, then it is useful to find an agent which will readily accomplish the reduction. Hydrogen gas is a very useful reducing agent, used widely in the isolation of pure metals by reduction. For example, copper metal can be obtained by reduction in the reaction

CuO + H2 -> Cu + H2O

The fact that the hydrogen is oxidized in the process is incidental - the hydrogen has performed a very valuable task as a reducing agent.

Important tasks are accomplished by reducing agents as photographic developers and antioxidants. And in photosynthesis, the reducing agents accompish a task which is essential to our survival.

The relative strengths of reducing agents can be inferred from their standard electrode potentials. The strongest reducing agents are shown from the standard electrode table.

Cathode (Reduction)
Half-Reaction
Standard Potential
E° (volts)
Li+(aq) + e- -> Li(s)
-3.04
K+(aq) + e- -> K(s)
-2.92
Ca2+(aq) + 2e- -> Ca(s)
-2.76
Na+(aq) + e- -> Na(s)
-2.71
Mg2+(aq) + 2e- -> Mg(s)
-2.38

Lithium, having the largest negative value of electrode potential, is the strongest reducing agent. By convention, the standard electrode potentials are reduction potentials, or the tendency to be reduced. By that convention, the strongest reducing agents will have large negative potentials.

Index

Oxidation/
Reduction concepts


Reference
Hill & Kolb
Ch 8
 
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