Molecular autoionization

Molecular autoionization (or self-ionization) is a reaction between molecules of the same substance to produce ions. If a pure liquid partially dissociates into ions, it is said to be self-ionizing.^[1]^:163 The oxidation number on all atoms in such a reaction remains unchanged. Such autoionization can be protic (H+
transfer), or non-protic. Some examples of each are:

Examples

Protic solvents

Protic solvents often undergo some autoionization

2 H
2O ⇌ H
3O+
+ OH−
The self-ionization of water is particularly well studied, due to its implications for acid-base chemistry of aqueous solutions.

2 NH
3 ⇌ NH+
4 + NH−
2 ^[1]^:217

2 H
2SO
4 ⇌ H
3SO+
4 + HSO−
4 ^[1]^:223

3 HF ⇌ H
2F+
+ HF−
2 ^[1]^:221 Here proton transfer between two HF combines with homoassociation of F−
and a third HF to form HF−
2.

Non-protic solvents

2 PF
5 ⇌ PF−
6 + PF+
4

2 N
2O
4 ⇌ NO+
+ NO−
3 ^[1]^:217

2 BrF
3 ⇌ BrF+
2 + BrF−
4 ^[1]^:224

Coordination chemistry

Autoionization is not restricted to neat liquids or solids. Solutions of metal complexes exhibit this property. For example, compounds of the type FeX₂(terpyridine) are unstable with respect to autoionization [Fe(terpyridine)₂]²⁺[FeX₄]²⁻.^[2]

References

1 2 3 4 5 6 Housecroft C.E.; Sharpe A.G. (2005). Inorganic Chemistry (2nd ed.). Pearson. ISBN 0130-39913-2.
↑ Kamata, K.; Suzuki, A.; Nakai, Y.; Nakazawa, H., "Catalytic Hydrosilylation of Alkenes by Iron Complexes Containing Terpyridine Derivatives as Ancillary Ligands", Organometallics 2012, 31, 3825-3828. doi:10.1021/om300279t

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