Linkage isomerism

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

Typical ligands that give rise to linkage isomers are:

  • cyanide, CNisocyanide, NC
  • cyanate, OCNisocyanate, NCO
  • thiocyanate, SCNisothiocyanate, NCS
  • selenocyanate, SeCN – isoselenocyanate, NCSe
  • nitrite, NO2
  • sulfite, SO2−3

An example of chemicals that are linkage isomers is violet-colored [(NH3)5Co-SCN]2+ and orange-colored [(NH3)5Co-NCS]2+. The isomerization of the S-bonded (isothiocyanate) isomer to the N-bonded (thiocyanate) isomer occurs by an intramolecular rearrangement.[1]

The linkage isomers [Rh(SCN)6]3− and [Rh(SCN)5(NCS)]3− have been separated and individually characterized.[2]

History

Linkage isomerism was first noted for nitropentaamminecobalt(III), [Co(NH3)5(NO2)]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(NH3)5(ONO)]2+. Although the existence of the isomers had been known since the late 1800s, only in 1907 was the difference explained.[3] 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-NO2) from the nitrito isomer (Co-ONO) occurs by an intramolecular rearrangement.[4]

The complex cis-dichlorotetrakis(dimethylsulfoxide)ruthenium(II) (RuCl2(dmso)4) features both S- vs. O-bonded [[dimethylsulfoxide ligands. [5]


References

  1. ^ Buckingham, D. A.; Creaser, I. I.; Sargeson, A. M. (1970). "Mechanism of Base Hydrolysis for CoIII(NH3)5X2+ Ions. Hydrolysis and Rearrangement for the Sulfur-Bonded Co(NH3)5SCN2+ Ion". Inorg. Chem. 9 (3): 655–661. doi:10.1021/ic50085a044.
  2. ^ Mukai, Miki; Hagiwara, Seiya; Tanaka, Rika; Tabe, Hiroyasu; Nakazono, Takashi; Yamada, Yusuke (2023). "Selective Crystallization of Linkage Isomers, [RhIII(NCS)(SCN)5]3– and [RhIII(SCN)6]3–, to Investigate Structural Trans Influence and Thermal Stability". Inorganic Chemistry. 62 (44): 18098–18107. doi:10.1021/acs.inorgchem.3c02292. PMID 37862144.
  3. ^ Werner, A. (1907). "Über strukturisomere Salze der Rhodanwasserstoffsäure und der salpetrigen Säure". Ber. (in German). 40 (1): 765–788. doi:10.1002/cber.190704001117.
  4. ^ Basolo, Fred; Hammaker, G.S (1 February 1962). "Synthesis and Isomerization of Nitritopentammine Complexes of Rhodium(III), Iridium(III), and Platinum(IV)". Inorganic Chemistry. 1 (1): 1–5. doi:10.1021/ic50001a001.
  5. ^ Enzo Alessio (2004). "Synthesis and reactivity of Ru-, Os-, Rh-, and Ir-halide-sulfoxide compounds". Chem. Rev. 104 (9): 4203–4242. doi:10.1021/cr0307291. PMID 15352790.
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