6533b861fe1ef96bd12c4eec

RESEARCH PRODUCT

Metallocene sulfide chemistry of niobium and tantalum: new insights into the formation of niobium-polysulfido complexes and synthesis, structure, and reactivity of Cp2'Ta(.eta.2-S2)H (Cp' = tert-BuC5H4)

Claude MoïseJean Claude LeblancManfred L. ZieglerJoachim WachterFlorence VolpatoHenri BrunnerMarek M. KubickiBernd NuberHans Juergen Bach

subject

chemistry.chemical_classificationSulfideLigandHydrideStereochemistryddc:540Organic ChemistryReaction intermediateInorganic Chemistrychemistry.chemical_compoundchemistry540 ChemiePolymer chemistrySalt metathesis reactionMoietyReactivity (chemistry)Physical and Theoretical ChemistryMetallocene

description

The previously described reaction of Cp'2NbH3 (Cp' = t-BuC5H4) with S8 was investigated with regard to the kinetic stabilization of as yet elusive intermediates during the formation of the polysulfide complex Cp'4Nb2S9 (1). Therefore, the permethylated complex Cp*2NbS3H (2; Cp* = C5Me5) and the Ta complex Cp'2TaS2H (3) were synthesized in a related reaction and structurally investigated. Despite the problematic localization of the hydride atom during X-ray crystallographic studies, the molecules can be described in a proper manner: Characteristic of 2 and 3 are M(eta(2)-S2) cores to which either an SH (2) or a H (3) ligand is attached. Complex 3 is the first known tantalocene sulfide. It readily loses sulfur upon reaction with PR3 (R = C6H5, OCH3) and CH3I to form compounds 4 and 5, which both contain the Ta = S moiety. Attempts to prepare `'classical'' metallocene sulfides by metathesis reaction of Cp'2NbCl2 and Li2S5 gave the polynuclear compounds Cp'3Nb3S10O (6) and Cp'4Nb4S13 (7).

yearjournalcountryeditionlanguage
1992-03-01
10.1021/om00039a055https://epub.uni-regensburg.de/23046/