Preparation and structure of bis(μ-acetato)dichlorodicarbonyldiiridium(II) complexes with Group 15 ligands and ESR and density functional theory studies of electronic structure of their cationic radicals

Preparation and structure of bis(μ-acetato)dichlorodicarbonyldiiridium(II) complexes with Group 15 ligands and ESR and density functional theory studies of electronic structure of their cationic radicals

bis(μ-Acetato)dichlorodicarbonyldiiridium(II) complexes with Group 15 compounds as axial ligands, [Ir 2(μ-O 2CMe) 2Cl 2(CO) 2L 2] (L=PPh 3: 1, PCy 3: 2, P(OPh) 3: 3, AsPh 3: 4, SbPh 3: 5) were synthesized. The Ir–Ir distances of complexes 2– 5 (2.6200(9)–2.6936(7) Å) were longer than those of the co...

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Bibliographic Details
Published in:Inorganica Chimica Acta Vol. 323; no. 1; pp. 96 - 104
Main Authors: Kanematsu, Naohiro, Ebihara, Masahiro, Kawamura, Takashi
Format: Journal Article
Language:English
Published: Elsevier B.V 29-10-2001
Subjects:
Density functional theory calculations
Electron spin resonance
Electronic structures
Group 15 ligands
Iridium complexes
Metal–metal bonds
Group 15 ligands
Iridium complexes
Electronic structures
Metal–metal bonds
Electron spin resonance
Density functional theory calculations
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Summary:bis(μ-Acetato)dichlorodicarbonyldiiridium(II) complexes with Group 15 compounds as axial ligands, [Ir 2(μ-O 2CMe) 2Cl 2(CO) 2L 2] (L=PPh 3: 1, PCy 3: 2, P(OPh) 3: 3, AsPh 3: 4, SbPh 3: 5) were synthesized. The Ir–Ir distances of complexes 2– 5 (2.6200(9)–2.6936(7) Å) were longer than those of the complexes with MeCN, py or dmso ligands at the axial sites. Cyclic voltammograms of 1– 5 show a chemically reversible one-electron oxidation wave of which E 1/2 (vs. Fc +–Fc) values were between 0.22 for 2 and 0.75 V for 3 depending on the axial ligands. Oxidation by electrolysis and/or radiolysis of 1, 2 and 4 gave their cationic radicals. The ESR spectra of 1 + , 2 + and 4 + at 77 K were pseudo-axially symmetric with g tensors of g ⊥=2.15 and g ∣∣=1.96, 2.18 and 1.95, and 2.20 and 1.96, respectively. Their hyperfine coupling indicates that their odd electron is delocalized equivalently onto the two axial phosphorous or arsenic atoms. The odd electron densities were estimated from the hyperfine coupling tensors as ρ≈0.1 on the P atoms of 1 + and 2 + and ρ≈0.15 on the As atoms of 4 + . These results indicate that their singly occupied molecular orbital (SOMO) is the σ IrIr orbital with σ IrP* or σ IrAs* character. DFT calculations for model complexes, [Ir 2(μ-O 2CH) 2Cl 2(CO) 2(PH 3) 2] + ( 6 + ) and [Ir 2(μ-O 2CH) 2Cl 2(CO) 2(AsH 3) 2] + ( 7 + ), gave electronic structures consistent with the ESR results. Ir 2 4+ complexes, [Ir 2(μ-OAc) 2(CO) 2Cl 2(ER 3) 2] (ER 3=PCy 3, P(OPh) 3, PPh 3, AsPh 3, SbPh 3), were prepared from the reaction of [Ir 2(μ-OAc) 2(CO) 2Cl 2] with ER 3; ESR of their cationic radicals for E=P and As showed that their SOMO is the σ IrIr/σ IrE* orbital, and DFT calculations reproduced these results.
ISSN:0020-1693
1873-3255
DOI:10.1016/S0020-1693(01)00615-6