Assembly of cyclometalated platinum(II) complexes via 1,1′- 
bis(diphenylphosphino)ferrocene ligand: Kinetics and mechanisms.

Nabavizadeh, S. M.; Amini, H.; Shahsavari, H. R.; Namdar, M.; Rashidi, M.; Kia, R.; Hemmateenejad, B.; Nekoeinia, M.; Ariafard, A.; Hosseini, F. N.; Gharavi, A.; Khalafi-Nezhad, A.; Sharbati, M. T.; Panahi, F.

doi:10.1021/om101055n

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Assembly of cyclometalated platinum(II) complexes via 1,1′- bis(diphenylphosphino)ferrocene ligand: Kinetics and mechanisms.

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Kia, R.
Research Group of Structural Dynamics of (Bio)Chemical Systems, MPI for Biophysical Chemistry, Max Planck Society;

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Citation

Nabavizadeh, S. M., Amini, H., Shahsavari, H. R., Namdar, M., Rashidi, M., Kia, R., et al. (2011). Assembly of cyclometalated platinum(II) complexes via 1,1′- bis(diphenylphosphino)ferrocene ligand: Kinetics and mechanisms. Organometallics, 30(3), 1466-1477. doi:10.1021/om101055n.

Cite as: https://hdl.handle.net/11858/00-001M-0000-002C-1903-8

Abstract

The kinetics and mechanism of the reaction of the cyclometalated complexes [PtAr(C-N)(SMe2)], 1, in which Ar is Ph, p-MeC6H 4, or p-MeOC6H4, and C-N is either ppy (deprotonated 2-phenylpyridine) or bhq (deprotonated benzo[h]quinoline), with 1,1′-bis(diphenylphosphino)ferrocene, dppf, were studied using UV-visible and 31P NMR spectroscopies. When 0.5 equiv of dppf was added, the binuclear Pt(II) complex [Pt2Ar2(C-N)2(μ- dppf)], 2, was formed in a good yield. The complexes were fully characterized using multinuclear (1H, 31P, and 195Pt) NMR spectroscopy, and the structure of complex [Pt2(p-MeOC 6H4)2(bhq)2(μ-dppf)], 2c′•CH2Cl2, was further identified by X-ray crystallography. On the basis of low-temperature 31P NMR studies involving the starting complex [Pt(p-MeC6H4)(ppy)(SMe 2)], 1b, we suggest that dppf displaces the labile ligand SMe 2 to give an uncommon complex, [Pt(p-MeC6H 4)(ppy)(dppf-κ1P)], A, in which dppf- κ1P is a monodentate dppf ligand, which rapidly forms an equilibrium with the chelating dppf isomer complex [Pt(p-MeC6H 4)(dppf)(ppy-κ1C)], B, in which ppy- κ1C is the deprotonated ppy ligand that is C-ligated with the dangling N atom. In the second step, A is reacted with the remaining second half of starting complex 1b to give the final Pt(II)-Pt(II) binuclear complex [Pt2(p-MeC6H4)2(ppy) 2(μ-dppf)], 2b. A competitive-consecutive second-order reaction mechanism was suggested for the reaction using chemometric studies, and the rate constants at 5 °C for first and second steps were estimated as k 2 = 10.7 ± 0.2 L mol-1 s-1 and k 2′ = 0.68 ± 0.05 L mol-1 s-1, respectively. When the starting complex [Pt(p-MeC6H 4)(ppy)(SMe2)], 1b, was reacted with 1 equiv of dppf, similarly the complex A, in equilibrium with B, was formed first, with the rate constant at 5 °C being k2 = 10.5 ± 0.5 L mol-1 s-1, estimated using UV-visible spectroscopy. Subsequently, however, A and B would slowly and reversibly react with each other to form a new species, C, the structure of which, on the basis of 31P and 195Pt NMR spectra, was proposed to be [(p-MeC6H4)(ppy)Pt(μ- dppf)Pt(p-MeC6H4)(ppy-κ1C)(dppf- κ1P)]; the same results were obtained when more than 1, e.g., 2, equiv of dppf was used, with a similar rate constant of k2 = 10.6 ± 0.6 L mol-1 s-1. The complexes 1b and 2b were shown to have some interesting photophysical properties as investigated by absorption and electroluminescence spectroscopies.