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koperionen

Koperionen are a hypothetical class of copper-containing nano-scale clusters studied in inorganic chemistry and materials science. They consist of small aggregates of copper atoms coordinated by soft ligands, forming discrete, kinetically stable units with defined stoichiometry. Koperionen exhibit properties that straddle molecular and nanoparticle chemistry, including redox activity, tunable optical absorption, and potential catalytic behavior.

Origin and terminology: The name combines koper, the Dutch word for copper, with ionen, meaning ions, to

Structure and properties: Koperionen typically have a central copper-rich core encircled by multidentate ligands such as

Synthesis and occurrence: In the laboratory, koperionen are prepared by chemical reduction of copper(II) precursors in

Applications and significance: Koperionen are investigated as models for metal-ligand interactions, as catalysts for organic transformations,

See also: Copper ions, Copper sulfide minerals, Nanoparticles, Coordination chemistry, Catalysis.

reflect
their
copper-centered
ionic
character.
The
term
is
used
in
scholarly
discussions
to
describe
a
family
of
copper-based
clusters
in
theoretical
and
educational
contexts.
amines
or
phosphines.
Mixed
Cu(I)/Cu(II)
oxidation
states
are
common;
bond
distances
and
coordination
geometries
vary
with
ligand
set.
They
are
often
1–2
nanometers
in
diameter
and
display
discrete,
non-extended
electronic
spectra.
the
presence
of
multidentate
ligands
under
inert
conditions.
They
are
not
widely
found
as
natural
minerals;
reports
of
naturally
occurring
copper
clusters
are
rare
and
debated.
Their
stability
depends
on
ligand
choice
and
solvent
environment.
and
as
potential
precursors
for
larger
nanoparticle
synthesis.
Their
well-defined
size
and
composition
make
them
useful
in
fundamental
studies
of
nanoscale
copper
chemistry.