Organoiridium compounds share many characteristics with those of rhodium, but less so with cobalt. Iridium can exist in
oxidation states of −3 to +5, but iridium(I) and iridium(III) are the more common. iridium(I) compounds (d8 configuration) usually occur with square planar or trigonal bipyramidal geometries, whereas iridium(III) compounds (d6 configuration) typically have an octahedral geometry.
Iridium(I) A well known example is
Vaska's complex, bis(triphenylphosphine)iridium carbonyl chloride. Although iridium(I) complexes are often useful
homogeneous catalysts, Vaska' complex is not. Rather it is iconic in the diversity of its reactions. Other common complexes include
Ir2Cl2(cyclooctadiene)2,
chlorobis(cyclooctene)iridium dimer, The analogue of
Wilkinson's catalyst, IrCl(PPh3)3), undergoes orthometalation: : IrCl(PPh3)3 → HIrCl(PPh3)2(PPh2C6H4) This difference between RhCl(PPh3)3 and IrCl(PPh3)3 reflects the generally greater tendency of iridium to undergo
oxidative addition. A similar trend is exhibited by RhCl(CO)(PPh3)2 and IrCl(CO)(PPh3)2, only the latter oxidatively adds O2 and H2. The olefin complexes chlorobis(cyclooctene)iridium dimer and cyclooctadiene iridium chloride dimer are often used as sources of "IrCl", exploiting the lability of the alkene ligands or their susceptibility to removal by hydrogenation.
Crabtree's catalyst ([Ir(P(C6H11)3)(pyridine)(cyclooctadiene)]PF6) is a versatile homogeneous catalyst for
hydrogenation of alkenes. (η5-
Cp)Ir(CO)2 oxidatively adds C-H bonds upon photolytic dissociation of one CO ligand.
Iridium(II) As is the case for rhodium(II), iridium(II) is rarely encountered. One example is iridocene, IrCp2. As with
rhodocene, iridocene dimerises at room temperature.
Iridium(III) Iridium is usually supplied commercially in the Ir(III) and Ir(IV) oxidation states. Important starting reagents being hydrated
iridium trichloride and
ammonium hexachloroiridate. These salts are reduced upon treatment with CO, hydrogen, and alkenes. Illustrative is the carbonylation of the trichloride: IrCl3(H2O)x + 3 CO → [Ir(CO)2Cl2]− + CO2 + 2 H+ + Cl− + (x-1) H2O Many organoiridium(III) compounds are generated from
pentamethylcyclopentadienyl iridium dichloride dimer. Many of derivatives feature kinetically inert cyclometalated ligands. :, two examples of which are shown here.
Iridium(V) Oxidation states greater than III are more common for iridium than rhodium. They typically feature strong-field ligands. One often cited example is oxotrimesityliridium(V). ==Uses==