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n2s2

N2S2 is the chemical formula representing a compound containing two nitrogen atoms and two sulfur atoms. In chemical literature, this formula can denote several isomeric species, and no single, widely isolated substance with this exact composition is standardly defined. Because of the high reactivity and potential instability of sulfur–nitrogen bonding, N2S2 is mainly discussed in theoretical, computational, or gas-phase contexts rather than as an ordinary solid or liquid substance.

Structural possibilities for N2S2 include linear and cyclic arrangements, with the two nitrogen atoms and the

N2S2 is typically described as a transient species or a species of interest in high-energy or fundamental

Related topics include other sulfur–nitrogen compounds and higher sulfur-nitrogen assemblies such as S-bearing azide-like species and

two
sulfur
atoms
connected
in
different
ways.
Conceptually,
researchers
consider
diverse
connectivity
patterns
and
bonding
schemes,
such
as
combinations
of
single
and
multiple
bonds,
leading
to
multiple
possible
isomers.
The
exact
ground-state
structure,
bond
lengths,
and
bond
orders
remain
subjects
of
computational
studies
and
experimental
inference
from
indirect
spectroscopic
evidence.
sulfur–nitrogen
chemistry.
It
has
been
explored
in
gas
phase
and
matrix
isolation
experiments,
and
often
features
prominently
in
theoretical
investigations
that
seek
to
map
the
potential
energy
surface
of
sulfur–nitrogen
compounds.
Due
to
instability
and
rapid
reactivity,
concrete,
long-lived
samples
are
rare,
and
data
are
predominantly
derived
from
spectroscopy
and
computational
chemistry.
larger
analogs.
See
also
S2N2,
S4N4,
and
general
sulfur–nitrogen
bonding
literature
for
broader
context.