Chemistry:Linkage isomerism

In chemistry, linkage isomerism or ambidentate isomerism is a form of isomerism in which certain coordination compounds have the same composition but differ in their metal atom's connectivity to a ligand.

Typical ligands that give rise to linkage isomers are:

• cyanide, CN−
  – isocyanide, NC−
  
• cyanate, OCN−
  – isocyanate, NCO−
  
• thiocyanate, SCN−
  – isothiocyanate, NCS−
  
• selenocyanate, SeCN−
  – isoselenocyanate, NCSe−
  
• nitrite, NO−
  2
• sulfite, SO2−
  3

Examples of linkage isomers are violet-colored [(NH
3)
5Co-SCN]²⁺ and orange-colored [(NH
3)
5Co-NCS]²⁺. The isomerization of the S-bonded isomer to the N-bonded isomer occurs intramolecularly.^[1]

The complex cis-dichlorotetrakis(dimethylsulfoxide)ruthenium(II) (RuCl
2(dmso)
4) exhibits linkage isomerism of dimethyl sulfoxide ligands due to S- vs. O-bonding. Trans-dichlorotetrakis(dimethylsulfoxide)ruthenium(II) does not exhibit linkage isomers.

History

Linkage isomerism was first noted for nitropentaamminecobalt(III) chloride, [Co(NH
3)
5(NO
2)]²⁺. This cationic cobalt complex can be isolated as either of two linkage isomers. In the yellow-coloured isomer, the nitro ligand is bound through nitrogen. In the red linkage isomer, the nitrito is bound through one oxygen atom. The O-bonded isomer is often written as [Co(NH
3)
5(ONO)]²⁺. Although the existence of the isomers had been known since the late 1800s, only in 1907 was the difference explained.^[2] It was later shown that the red isomer converted to the yellow isomer upon UV-irradiation. In this particular example, the formation of the nitro isomer (Co-NO
2) from the nitrito isomer (Co-ONO) occurs by an intramolecular rearrangement.^[3]

Structures of the two linkage isomers of [Co(NH
3)
5(NO
2)]²⁺.

References

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