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dinucleating

Dinucleating is a term used primarily in chemistry to describe systems that involve two metal centers or two nucleation sites in a coordinated fashion. In coordination chemistry, a dinucleating ligand is a multidentate, often rigid scaffold that features two donor sites connected by a defined linker. This arrangement binds two metal ions simultaneously, creating a dinuclear or bimetallic core. Donor atoms commonly include nitrogen, oxygen, phosphorus, or sulfur, and the linker sets the metal–metal distance and relative orientation.

Dinuclear complexes formed by dinucleating ligands are of interest because the proximity of the two metal

In crystallization science, dinucleation refers to the formation of two crystalline nuclei during a phase transition.

See also: dinuclear complex, dinuclear metal center, bimetallic coordination.

centers
can
enable
cooperative
reactivity
not
accessible
to
mononuclear
species.
Such
complexes
can
participate
in
multi-electron
transformations,
cooperative
substrate
activation,
and
unusual
redox
chemistry.
Common
motifs
include
bridging
ligands
that
span
the
two
metals
and
preorganized
pockets
that
enforce
a
specific
geometry.
Synthesis
typically
involves
combining
a
dinucleating
ligand
with
two
equivalents
of
metal
precursors
under
controlled
conditions,
and
characterization
relies
on
X-ray
crystallography,
magnetic
measurements,
and
spectroscopic
methods
to
confirm
dinuclear
binding
and
metal–metal
interactions.
Dinucleating
agents
or
conditions
can
influence
this
process,
affecting
grain
structure,
twin
formation,
and
crystallization
kinetics.
While
the
term
is
more
common
in
materials
science,
it
highlights
scenarios
where
the
emergence
of
two
nuclei
governs
the
evolution
of
a
material’s
microstructure.