Coordinating properties of [M(CO) 5(CN)] − [M=Cr; Mo; W] ligands: formation of ion pairs or dinuclear cyanide-bridged complexes, spectroscopic and X-ray diffraction studies

Abstract

The reaction of sodium cyanopentacarbonylmetalates Na[M(CO) 5(CN)] (M=Cr; Mo; W) with cationic Fe(II) complexes [Cp(CO)(L)Fe(thf)][O 3SCF 3], [L=PPh 3 ( 1a), CN-Benzyl ( 1b), CN-2,6-Me 2C 6H 3 ( 1c); CN-Bu t ( 1d), P(OMe) 3 ( 1e), P(Me) 2Ph ( 1f)] in acetonitrile solution, yielded the metathesis products [Cp(CO)(L)Fe(NCCH 3)][NCM(CO) 5] [M= W, L=PPh 3 ( 2a), CN-Benzyl ( 2b), CN-2,6-Me 2C 6H 3 ( 2c); CN-Bu t ( 2d), P(OMe) 3 ( 2e), P(Me) 2Ph ( 2f); M= Cr, L=(PPh 3) ( 3a), CN-2,6-Me 2C 6H 3 ( 3c); M= Mo, L=(PPh 3) ( 4a), CN-2,6-Me 2C 6H 3 ( 4c)]. The ionic nature of such complexes was suggested by conductivity measurements and their main structural features were determined by X-ray diffraction studies. Well-resolved signals relative to the [M(CO) 5(CN)] moieties could be distinguished only when 13C NMR experiments were performed at low temperature (from −30 to −50 °C), as in the case of [Cp(CO)(PPh 3)Fe(NCCH 3)][NCW(CO) 5] ( 2a) and [Cp(CO)(Benzyl-NC)Fe(NCCH 3)][NCW(CO) 5] ( 2b). When the same reaction was carried out in dichloromethane solution, neutral cyanide-bridged dinuclear complexes [Cp(CO)(L)FeNCM(CO) 5] [M= W, L=PPh 3 ( 5a), CN-Benzyl ( 5b); M= Cr, L=(PPh 3) ( 6a), CN-2,6-Me 2C 6H 3 ( 6c), CO ( 6g); M= Mo, L=CN-2,6-Me 2C 6H 3 ( 7c), CO ( 7g)] were obtained and characterized by infrared and NMR spectroscopy. In all cases, the room temperature 13C NMR measurements showed no broadening of cyano pentacarbonyl signals and, relative to tungsten complexes [Cp(CO)(PPh 3)FeNCW(CO) 5] ( 5a) and [Cp(CO)(CN-Benzyl)FeNCW(CO) 5] ( 5b), the presence of 183W satellites of the 13CN resonances ( J CW ∼ 95 Hz) at room temperature confirmed the formation of stable neutral species. The main 13C NMR spectroscopic properties of the latter compounds were compared to those of the linkage isomers [Cp(CO)(PPh 3)FeCNW(CO) 5] ( 8a) and [Cp(CO)(CN-Benzyl)FeCNW(CO) 5] ( 8b). The characterization of the isomeric couples 5a– 8a and 5b– 8b was completed by the analyses of their main IR spectroscopic properties. The crystal structures determined for 2a, 5a, 8a and 8b allowed to investigate the geometrical and electronic differences between such complexes. Finally, the study was completed by extended Hückel calculations of the charge distribution among the relevant atoms for complexes 2a, 5a and 8a.