Formation of bimetallic, trimetallic, and pentametallic yttrium methoxide and methoxide oxide complexes from reactions of alkali-metal methoxides with bis(cyclopentadienyl)yttrium chloride

The superficially simple metathetical reaction of (C5H5)[sub 2]YCl(THF) [where C5H5=C[sub 5]H[sub 5]] with alkali-metal methoxides has been found to form a variety of products and product mixtures depending on reaction conditions. (C5H5)[sub 2]YCl(THF) reacts with NaOMe to form [(C5H5)[sub 2]Y([mu]-...

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Bibliographic Details
Published in:Inorganic chemistry 1992-06, Vol.31 (12), p.2492-2501
Main Authors: Evans, William J, Sollberger, Mark S, Shreeve, Julie L, Olofson, Jeffrey M, Hain, John H, Ziller, Joseph W
Format: Article
Language:English
Subjects:
400201 - Chemical & Physicochemical Properties
BOND ANGLE
BOND LENGTHS
CHEMICAL PREPARATION
CHEMICAL REACTION YIELD
Chemistry
COHERENT SCATTERING
COMPLEXES
Condensed matter: structure, mechanical and thermal properties
DIFFRACTION
DIMENSIONS
DIMERS
Exact sciences and technology
INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY
LENGTH
LIGANDS
MOLECULAR STRUCTURE
NMR SPECTRA
Organic chemistry
ORGANIC COMPOUNDS
ORGANOMETALLIC COMPOUNDS
Organometalloidal and organometallic compounds
Physics
Preparations and properties
SCATTERING
SPECTRA
Structure of solids and liquids
crystallography
Structure of specific crystalline solids
SYNTHESIS
TRANSITION ELEMENT COMPLEXES
Transition metals derivatives
X-RAY DIFFRACTION
YIELDS
YTTRIUM COMPLEXES
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Summary:The superficially simple metathetical reaction of (C5H5)[sub 2]YCl(THF) [where C5H5=C[sub 5]H[sub 5]] with alkali-metal methoxides has been found to form a variety of products and product mixtures depending on reaction conditions. (C5H5)[sub 2]YCl(THF) reacts with NaOMe to form [(C5H5)[sub 2]Y([mu]-OMe)][sub 2] (1) in 80-95% yield depending on the method of isolation of the product. 1 can be generated analogously from KOMe in up to 75% yield depending on reaction conditions and the source of KOMe. The primary byproduct in KOMe reactions, which can be isolated in up to 20% yield, was identified as the trimetallic anion ([(C5H5)[sub 2]Y([mu]-OMe)][sub 2][(C5H5)[sub 2]Y]([mu][sub 3]-O))[sup [minus]] (2). The yield of 2 can be increased to as high as 70% by varying the reaction conditions and the (C5H5)[sub 2]YCl(THF) to KOMe stoichiometry. Me[sub 2]O has been isolated as a byproduct in this oxide-forming reaction. The previously characterized pentametallic complex (C5H5)[sub 5]Y[sub 5]([mu]-OMe)[sub 4]([mu][sub 3]-OMe)[sub 4]([mu][sub 5]-O) (3) is also formed in this reaction system. 3 can be obtained in high yield from the reaction of (C5H5)YCl[sub 2](THF)[sub 3], generated in situ, with 2 equiv of NaOMe in THF at reflux or from the reaction of (C5H5)[sub 2]YCl(THF) and MeOH-solvated KOMe. Crystallographic data have been obtained on 1-3 as well as the (trimethylsilyl)cyclopentadienyl analogue of 1 [(C[sub 5]H[sub 4]SiMe[sub 3])[sub 2]Y([mu]-OMe)][sub 2] (4) and its chloride precursor [(C[sub 5]H[sub 4]SiMe[sub 3])[sub 2]Y([mu]-Cl)][sub 2] (5). Complexes 1,4, and 5 are comprised of (C[sub 5]H[sub 4]R)[sub 2]Y (R = H, SiMe[sub 3]) bent metallocene units bridged by methoxide or chloride ligands.
ISSN:0020-1669
1520-510X
DOI:10.1021/ic00038a035