Rein U. Kirss scite author profile

The anodic electrochemistry of several compounds containing two or three ferrocenyl moieties linked by a phosphine or phosphine chalcogenide group has been studied in dichloromethane containing [NBu 4 ][TFAB], where TFAB is the tetrakis(perfluoroaryl)borate anion, [B(C 6 F 5 ) 4 ] -. In two cases, namely [CpFe(C 5 H 4 )] 3 P (3) and [CpFe(C 5 H 4 )] 2 PdO(Ph) ( 6), the first one-electron-oxidation product is stable on the cyclic voltammetric (CV) time scale and subsequent oxidations at more positive potentials are also observed. The oxidations of [CpFe(C 5 H 4 )] 2 PPh (2) and [CpFe(C 5 H 4 )] 3 PdSe (7) are not reversible, and their monocations undergo follow-up reactions that are first-order and second-order, respectively, in the neutral compound. The results are consistent with a model in which the initial oxidation always involves a largely ferrocenyl-based HOMO which, nevertheless, has significant phosphine or phosphine chalcogenide character, allowing radical-type reactions, including dimerizations, at the linking group. The traditional nonaqueous supporting electrolyte anions such as [PF 6 ]and [BF 4 ]are shown to be responsible for many of the earlier difficulties in interpreting the anodic electrochemistry of this oft-studied class of compounds.

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Parahydrogen-Induced Polarization and Polarization Transfer in Hydrogenation and Oxidative Addition Reactions

Eisenberg

Eisenschmid

Chinn

et al. 1992

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Di(phosphine)-bridged complexes of palladium. Parahydrogen-induced polarization in hydrogenation reactions and structure determination of tris(.mu.-bis(diphenylphosphino)methane)dipalladium, Pd2(dppm)3

Kirss¹,

Eisenberg²

1989

Inorg. Chem.

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Rein U. Kirss

Para hydrogen induced polarization in hydrogenation reactions

Anodic Electrochemistry of Multiferrocenyl Phosphine and Phosphine Chalcogenide Complexes in Weakly Nucleophilic Electrolytes

Parahydrogen-Induced Polarization and Polarization Transfer in Hydrogenation and Oxidative Addition Reactions

Di(phosphine)-bridged complexes of palladium. Parahydrogen-induced polarization in hydrogenation reactions and structure determination of tris(.mu.-bis(diphenylphosphino)methane)dipalladium, Pd2(dppm)3

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