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azadithiolate

Azadithiolate is a nitrogen-containing dithiolate ligand widely used in inorganic and bioinorganic chemistry. It features a central nitrogen atom incorporated into a 1,3-dithiolate framework, typically described as S–CH2–NH–CH2–S. The two sulfur atoms serve as soft donors capable of bridging two metal centers, while the amine or imine nitrogen provides additional electronic and potentially proton-transfer functionality. In many complexes the ligand is fully deprotonated to a dianionic form, enabling μ-bridging coordination between metal sites.

In the field of nitrogenase research, azadithiolate has been discussed as a plausible substitute for a native

In synthetic chemistry, azadithiolate ligands are employed to construct diiron and other metal-sulfur clusters that mimic

carbon-based
dithiolate
in
the
FeMo
cofactor,
functioning
as
a
bridging
ligand
that
can
influence
redox
properties
and
participate
in
proton
transfer
during
N2
reduction
and
H2
evolution.
While
its
exact
role
remains
the
subject
of
investigation,
azadithiolate-containing
model
complexes
have
helped
test
hypotheses
about
proton-coupled
electron
transfer
in
the
enzyme's
active
site.
aspects
of
the
FeMo
cofactor.
These
adt-bridged
complexes
have
been
used
to
study
reactivity
patterns
relevant
to
nitrogen
fixation,
including
multi-electron/proton
processes
and
hydrogen
evolution.
The
ligand's
ability
to
couple
sulfur
donors
with
an
upper-atom
donor
site
(the
nitrogen)
makes
it
a
valuable
scaffold
for
tuning
electronic
structure
and
catalytic
properties.