The reaction of lanthanide and yttrium hydrocarbyls
{Cp*2Ln(μ-Me)}2 (Cp* =
tBuC5H4
(Cp‘), Ln = Y (1), Tb (2), Yb (3),
Lu (4); Cp* =
Me3SiC5H4 (Cp‘‘), Ln = Lu
(5)), one of which,
2, has been characterized by X-ray crystal analysis, with
various organosilicon, -germanium,
and -tin hydrides (as well as some organoaluminum and -gallium
hydrides) in hydrocarbon
solution was found to yield the corresponding unsolvated dimeric
lanthanide and yttrium
hydrides {Cp*2Ln(μ-H)}2 rather
than compounds with lanthanide−element (Si, Ge, Sn)
bonding. Thus, the reaction involves hydride transfer to Ln rather
than the silyl transfer
studied earlier for pentamethylcyclopentadienyllanthanide hydrocarbyls.
Dimeric compounds
Cp*2Ln(μ-H)(μ-Me)LnCp*2
with different bridging ligands were isolated; they are
intermediates in this reaction. Dimeric lanthanide and yttrium hydrides
catalyze the H/D exchange
in silanes. This catalytic reaction is most correctly described by
a mechanism involving
nucleophilic substitution at the silicon atom. Yttrium and
lutetium hydrocarbyls 1 and 4
react with various alkoxysilanes to produce the dimeric alkoxides
{Cp‘2Ln(μ-OR)}2 or
the
hydrocarbyl alkoxides
Cp‘2Ln(μ-Me)(μ-OR)LnCp‘2
(R = Me, Et), depending on the reaction
conditions. The reaction of 4 with (MeO)4Si
provided
Cp‘2Lu(μ-Me)(μ-OMe)LuCp‘2,
which
has been characterized by X-ray crystal analysis. This compound
contains one methyl bridge
(Lu−C 2.57(2) and 2.58(2) Å) and nonsymmetrically bonded
μ-OMe ligand (Lu−O 2.20(2)
and 2.12(2) Å). The reaction of 1 and
4 with Me3SiCl leads to the corresponding
dimeric
chlorides {Cp‘2Ln(μ-Cl)}2 only.
Thus, the reaction of lanthanide and yttrium
hydrocarbyls
with various heterosubstituted organosilanes R3SiX,
where X = H, OR, or Cl, is a selective
and convenient synthetic method in the chemistry of the group 3
elements. Complexes with
Ln(μ-H)(μ-Me)Ln and
Ln(μ-H)(μ-Cl)Ln bridging were prepared in high yield
by the exchange
reactions between the corresponding dimeric compounds
{Cp*2Ln(μ-X)}2 (X = H, Me,
Cl) in
a hydrocarbon solution. The capacities of various bridging
fragments to undergo reversible
cleavage (dissociation) in the hydrocarbon solution increase in the
sequence Ln−O(Me)−Ln
≪ Ln−Cl−Ln < Ln−H−Ln < Ln−Me−Ln.
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