Az. Voskoboynikov et al., REACTIVITY OF LANTHANIDE AND YTTRIUM HYDRIDES AND HYDROCARBYLS TOWARDORGANOSILICON HYDRIDES AND RELATED-COMPOUNDS, Organometallics, 16(19), 1997, pp. 4041-4055
The reaction of lanthanide and yttrium hydrocarbyls {Cp(2)Ln(mu-Me)}(
2) (Cp = (BuC5H4)-Bu-t (Cp'), Ln = Y (1), Tb (2), Yb (3), Lu (4); Cp*
= Me3SiC5H4 (CP ''), Ln = Lu (5)), one of which, 2, has been characte
rized by X-ray crystal analysis, with various organosilicon, -germaniu
m, and -tin hydrides (as well as some organoaluminum and -gallium hydr
ides) in hydrocarbon solution was found to yield the corresponding uns
olvated dimeric lanthanide and yttrium hydrides (Cp(2)Ln(mu-H)}(2) ra
ther than compounds with lanthanide-element (Si, Ge, Sn) bonding. Thus
, the reaction involves hydride transfer to Ln rather than the silyl t
ransfer studied earlier for pentamethylcyclopentadienyllanthanide hydr
ocarbyls. Dimeric compounds Cp(2)Ln(mu-H)(mu-Me)LnCp*(2) with differe
nt bridging ligands were isolated; they are intermediates in this reac
tion. Dimeric lanthanide and yttrium hydrides catalyze the H/D exchang
e in silanes. This catalytic reaction is most correctly described by a
mechanism involving nucleophilic substitution at the silicon atom. Yt
trium and lutetium hydrocarbyls 1 and 4 react with various alkoxysilan
es to produce the dimeric alkoxides (Cp'(2)Ln(mu-OR)}(2) or the hydroc
arbyl alkoxides Cp'(2)Ln(mu-Me)(mu-OR)LnCp'(2) (R = Me, Et), depending
on the reaction conditions. The reaction of 4 with (MeO)(4)Si provide
d Cp'Lu-2(mu-Me)(mu-OMe)LuCp'(2), which has been characterized by X-ra
y crystal analysis. This compound contains one methyl bridge (Lu-C 2.5
7(2) and 2.58(2) Angstrom) and nonsymmetrically bonded mu-OMe ligand (
Lu-O 2.20(2) and 2.12(2) Angstrom). The reaction of 1 and 4 with Me3Si
Cl leads to the corresponding dimeric chlorides (Cp'(2)Ln(mu-Cl)}(2) o
nly. Thus, the reaction of lanthanide and yttrium hydrocarbyls with va
rious heterosubstituted organosilanes R3SiX, where X = H, OR, or Cl, i
s a selective and convenient synthetic method in the chemistry of the
group 3 elements. Complexes with Ln(mu-H)(mu-Me)Ln and Ln(mu-H)(mu-Cl)
Ln bridging were prepared in high yield by the exchange reactions betw
een the corresponding dimeric compounds (Cp(2)Ln(mu-X)}(2) (X = H, Me
, Cl) in a hydrocarbon solution. The capacities of various bridging fr
agments to undergo reversible cleavage (dissociation) in the hydrocarb
on solution increase in the sequence Ln-O(Me)-Ln much less than Ln-Cl-
Ln < Ln-H-Ln < Ln-Me-Ln.