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acylmetal

An acylmetal complex is a compound in which an acyl group, R–CO–, is bound to a metal center. The acyl fragment is typically attached through the carbonyl carbon, giving a metal–carbonyl bond described as M–C(O)R. Such complexes are common in organometallic chemistry and frequently participate in catalytic cycles that transform carbonyl-containing fragments into value-added products.

Typical formation routes include oxidative addition of acyl chlorides to low-valent metal centers (for example Pd(0),

Reactivity and applications: Acylmetal complexes enable key transformations such as hydroacylation of alkenes, carbonylation, and cross-coupling

Examples and scope: Rhodium and nickel systems are among the most studied for acyl chemistry, with reported

See also: acylation, carbonylation, hydroacylation, migratory insertion, organometallic chemistry.

Ni(0)
or
Rh(I)
complexes)
to
afford
metal(II)
acyl
species,
and
migratory
insertion
of
CO
into
a
metal–alkyl
bond
followed
by
subsequent
steps.
Acyl
ligands
can
also
be
generated
by
transacylation
from
other
acyl
donors.
In
many
cases
the
acyl
ligand
is
formally
an
anionic
two-electron
donor,
and
the
metal–acyl
bond
can
participate
in
migratory
insertion,
reductive
elimination,
or
cooperative
activation
of
substrates.
processes
that
form
ketones
or
aldehydes.
In
hydroacylation,
an
acyl–metal
fragment
adds
across
a
C=C
bond
to
furnish
a
ketone
after
subsequent
steps.
Palladium,
rhodium,
nickel
and
other
metals
have
been
used
to
access
acyl
complexes
that
mediate
these
reactions.
Stability
and
ligand
environment
strongly
influence
reactivity;
bulky
phosphines
or
N-heterocyclic
carbenes
can
stabilize
reactive
acyl
species
and
steer
selectivity.
acyl
intermediates
in
catalytic
cycles.
Acyl
complexes
of
ruthenium,
iron,
cobalt,
and
other
transition
metals
also
occur,
expanding
the
utility
of
acylation
and
carbonylation
processes
in
synthesis
and
industrial
chemistry.