352467-81-3Relevant academic research and scientific papers
Oxidative reactions of half-sandwich ruthenium compounds: Formation of cationic nitrosyl ruthenium(II) derivatives
Diversi, Pietro,Fontani, Marco,Fuligni, Melania,Laschi, Franco,Matteoni, Simona,Pinzino, Calogero,Zanello, Piero
, p. 145 - 156 (2001)
The electrochemical behaviour of the ruthenium(II) alkyl complexes [Ru(Me)Cp*(L)2] (Cp=η5-C5Me5; L=PMe3 2a, PMe2Ph 2b), [Ru(CH2CMe3)Cp*(PMe3)2] (3a), and the related [Ru(Me)Cp(PPh3)2] (4d) (Cp=η5-C5H5) in CH2Cl2 involves a one-electron process, yielding the corresponding ruthenium(III) paramagnetic cations, as shown by coupled electrochemical-EPR studies. Compounds 2-4 are oxidised by [FeCp2]+ in benzene to unidentified paramagnetic products which may decompose giving the corresponding alkane. The Cp* compounds react with NOBF4 affording the monocationic alkylnitrosyl derivatives [Ru(R)Cp*(NO)(L)]BF4 (R=Me; L=PMe3 7a, PMe2Ph 7b. R=CH2CMe3; L=PMe3) and, when in excess of NO+, the ruthenium(II) dicationic complexes [RuCp*(NO)(L)2](BF4)2 (L=PMe3 5a, PMe2Ph 5b). The chloro complexes [Ru(Cl)Cp*(L)2] (L=PMe3 1a, PMe2Ph 1b, PPh3 1d) react analogously with NO+ to give [Ru(Cl)Cp*(NO)(L)]BF4 (L=PMe3 6a, PMe2Ph 6b, PPh3 6d) and [RuCp*(NO)(L)2](BF4)2 (L=PMe3 5a, PMe2Ph 5b). In contrast [Ru(Me)Cp(PPh3)2] gives only [Ru(Me)Cp(NO)(PPh3)]BF4. EPR spectroscopy suggests that these nitrosylation reactions are also oxidative in character proceeding through ruthenium(III) intermediates.
