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oxometalates

Oxometalates are inorganic compounds that form discrete metal-oxide clusters in which early transition metals are linked by oxide ligands. They commonly arise as polyoxometalate ions in aqueous solution, bearing high negative charges balanced by metal counterions. The term polyoxometalates (POMs) is widely used for well-characterized oxometalate families with defined structures and compositions.

Most oxometalates are built from MO6 octahedra connected by shared oxide corners or edges, producing robust,

Key properties include water stability and rich redox chemistry, enabling multi-electron transfer reactions. POMs function as

Synthesis generally involves controlled hydrolysis and condensation of molybdate or tungstate precursors in the presence of

Applications span catalysis in organic synthesis, electrochemistry, energy storage, and materials science. Owing to structural predictability

highly
condensed
oxidation-state
platforms.
Two
historically
important
structural
archetypes
are
the
Keggin
and
Dawson
ions.
The
Keggin
ion
has
the
form
[XM12O40]n−,
with
X
a
heteroatom
such
as
P
or
Si
and
M
usually
Mo
or
W.
The
Dawson
ion,
[X2M18O62]n−,
is
closely
related.
Variants
with
lacunary
sites
or
heterometal
substitutions
expand
the
family.
homogeneous
catalysts
for
oxidation
and
photoredox
processes
and
can
serve
as
acid
or
acid–base
catalysts
in
selected
reactions.
They
are
also
used
as
stable,
recyclable
solid
catalysts
when
supported
on
surfaces,
and
their
redox
properties
can
be
tuned
by
choice
of
metal,
heteroatom,
and
counterions.
a
heteroatom
source,
under
carefully
adjusted
pH
and
temperature.
Purification
yields
the
desired
ion
or
crystalline
solid;
reduction
or
ion
exchange
yields
different
redox
or
charge
states.
and
tunable
redox
properties,
oxometalates
remain
a
central
topic
in
inorganic
chemistry
and
catalysis
research.