Reactions of Tetraalkylchromium(IV) with Silica: Mechanism of Grafting and Characterization of Surface Organometallic Complexes
Received July 23, 1996 Abstract: The reactions of CrR4 (1, R is
neopentyl or trimethylsilylmethyl) with the surfaces of
partially dehydroxylated silicas lead to the formation of discrete
mononuclear surface
organometallic fragments. The reaction stoichiometry depends on
the density of surface
hydroxyl groups. On silica subjected to prior dehydroxylation at
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C, one Cr is grafted
per hydroxyl group and 1 equiv of alkane is evolved, giving
SiOCrR3, 2. On silica
dehydroxylated at 200 C, each Cr is grafted onto two hydroxyl groups
and 2 equiv of alkane
are evolved, giving (SiO)2CrR2,
3. When CrR4 reacts with deuterated
hydroxyl groups,
unlabeled and monodeuteroalkanes are liberated. A chemisorption
mechanism is proposed
with competing protonation by surface hydroxyl groups and
intramolecular 
-H elimination.
The chemisorbed Cr species retain the oxidation state and
nuclearity of their parent
molecular precursors, as shown by UV-vis and EPR spectra and magnetic
susceptibility
measurement. The surface organometallic complexes are unreactive
toward water, CO, and
olefins but highly sensitive to O2. While 2
is thermally stable up to 100 C, 3 smoothly
eliminates one alkyl ligand as alkane at 60 C. 
