The known compound
[Cp‡Fe(CO)2]2 and the
new, more soluble
[Cp†Fe(CO)2]2
(Cp‡ = η5-C5Ph5; Cp† =
η5-C5Ph4(p-tolyl))
are prepared via a new, very effective route involving
hydridic
hydrogen atom abstraction from the hydrides,
Cp‡Fe(CO)2H and
Cp†Fe(CO)2H, by the
trityl
radical. The dimers dissociate thermally to the corresponding
17-electron monomers, Cp‡Fe(CO)2 and
Cp†Fe(CO)2, which probably assume
“planar” (C
2
v
)
structures with OC−Fe−CO bond angles of ∼90°.
The 18-electron dimers
[Cp‘Fe(CO)2]2 (Cp‘ =
η5-C5Ph5,
η5-C5Ph4(p-tolyl)),
which undergo
only very slight thermal dissociation to the corresponding 17-electron
monomers Cp‘Fe(CO)2
•,
nonetheless exhibit reactivity patterns which reflect the chemistry of
the monomers. Thus,
reactions with several organic halides RX give
Cp‘Fe(CO)2R and Cp‘Fe(CO)2X,
consistent
with initial halogen atom abstraction by
Cp‘Fe(CO)2
• followed by coupling of the
resulting
carbon-centered radical with a second molecule of
Cp‘Fe(CO)2
•. Reactions of
[(η5-C5Ph4(p-tolyl)}Fe(CO)2]2 with small
phosphines L result in displacement of
η5-C5Ph4(p-tolyl)
radicals
rather than formation of isolable 17-electron compounds
[{η5-C5Ph4(p-tolyl)}Fe(CO)L•,
while
reaction with the isonitrile t-BuNC results in
disproportionation to the salt
[{η5-C5Ph4(p-tolyl)}Fe(t-BuNC)3][{η5-C5Ph4(p-tolyl)}Fe(CO)2],
possibly via the substituted species (η5-C5Ph4(p-tolyl)Fe(CO)(t-BuNC)•.
Reactions of
[{η5-C5Ph4(p-tolyl)}Fe(CO)2]2
with phosphites
P(OR)3 do give the substituted radical species
{η5-C5Ph4(p-tolyl)}Fe(CO){P(OR)3}•,
but
Arbuzov products such as
{η5-C5Ph4(p-tolyl)}Fe(CO)2Me,
{η5-C5Ph4(p-tolyl)}Fe(CO)2{P(O)(OMe)2}, and
{η5-C5Ph4(p-tolyl)}Fe(CO){P(OMe)3}{P(O)(OMe)2}
are the major products
formed when R = Me and, to a lesser extent, Et. The Arbuzov
reaction is hindered when R
is large, and the compound
{η5-C5Ph4(p-tolyl)}Fe(CO){P(O-i-Pr)3}•
is a persistent radical
which has been characterized by, inter alia, EPR
spectroscopy. The EPR spectrum of a
frozen solution in benzene can be analyzed in terms of a uniaxial
g matrix (g
∥ = 1.993,
g
⊥ =
2.103) with isotropic 31P hyperfine coupling of 37 G (3.7
mT), typical of d7 organometallic
radicals in which the unpaired electron is essentially confined to a
metal d
z
2
orbital.
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