Controlled nucleophilic activation of different sites in [Mo 2Cp2L2(μ-SMe)2(μ-L′)] + cations (L = ButNC, xylNC, CO; L′ = SMe or PPh2)
Abstract
The thiolato-bridged binuclear molybdenum complexes [Mo2Cp 2L2(μ-SMe)2(μ-L′)]Y (Cp = η5-C5H5; L′ = SMe, L = Bu tNC (1a), xylNC (1b) or CO (3); L′ = PPh2, L = ButNC (16); Y = BF4, Cl) react with the anionic reagents NaBH4, NaBD4, LiR (R = Me, Bun), R′MgCl (R′ = Me, Pri, Bun or Ph). The products are unsubstituted (5, 7) or substituted (8-12) η4-cyclopentadiene derivatives, [Mo2(η5-C5H 5)(η4-C5H5R)L 2(μ-SMe)3] (L = xylNC, CO), or μ-formimidoyl dinuclear products, [Mo2Cp2L2(μ-SMe) 2(μ-L′)(μ-CHNR)] (L′ = SMe, L = ButNC (4) or xylNC (6); L′ = PPh2, L = ButNC (17)). Since the reduced dinuclear species [Mo2Cp2(CO) 2(μ-SMe)2] and the related oxo-compound [Mo 2Cp2(CO)(O)(μ-SMe)2] are sometimes isolated as minor products, the anionic reagent can play a secondary role as a reductant in these reactions in addition to its main role as a nucleophile. The electronic properties of the donor carbon atoms of the cyclopentadienyl rings and of the terminal ligands L, together with the nature of the anionic reagent, are the dominant factors controlling selective formation of 4-12 and 17. Tetrafluoroboric acid reacts with the substituted cyclopentadiene derivatives 9, 11 and 12 to form new functionalised cyclopentadienyl derivatives, [Mo 2(η5-C5H5)(η5- C5H4R)(CO)2(μ-SMe)3](BF 4) (R = Me (13), Bun (14) or Ph (15)). New complexes have been characterised by spectroscopic and chemical methods, supplemented for 5, 6 and 12 by X-ray diffraction studies at 100 K. © 2005 Elsevier B.V. All rights reserved.
Keywords
Activation analysis
Boron compounds
Complexation
Crystal structure
Electronic properties
Molybdenum compounds
Negative ions
Reaction kinetics
Spectroscopic analysis
X ray diffraction
Carbonyl ligand
Cyclopentadienyl
Dimolybdenum complexes
Formyl ligand
Isocyanide liagand
Nucleophilic activation
Thiolato-bridged complexes
Organometallics