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supersaturation

Supersaturation is a condition in which a solvent contains a higher concentration of dissolved solute than its equilibrium solubility would permit at a given temperature and pressure. In liquids, this means the solution would be saturated at that temperature, yet more solute remains dissolved. In vapors, supersaturation describes a state where the vapor contains more molecules than the equilibrium amount allowed, often relative to temperature and pressure.

Supersaturation is typically formed by processes that disturb equilibrium, such as cooling a saturated solution, evaporating

Nucleation is central to the transition from supersaturated to stable. Homogeneous nucleation occurs within the bulk

Applications and examples span chemistry, geology, and meteorology. In crystallization processes, controlled supersaturation drives crystal growth

Measurement of supersaturation is often expressed as a ratio S = actual concentration or partial pressure divided

solvent,
or
increasing
solute
concentration
more
quickly
than
crystallization
can
occur.
The
state
is
metastable:
without
a
nucleation
site
or
seeds,
the
excess
dissolved
material
may
persist;
given
time
or
the
introduction
of
a
seed,
crystallization
or
condensation
proceeds
to
restore
equilibrium.
solution
or
vapor,
while
heterogeneous
nucleation
happens
on
surfaces
or
impurities,
which
lowers
the
energy
barrier
to
phase
change.
Once
nucleation
starts,
rapid
crystal
growth
or
droplet
formation
can
follow.
and
purity.
In
foods
and
beverages,
supersaturated
solutions
(for
example,
sugar
syrups)
are
used
to
form
crystals.
Carbonated
drinks
are
stabilized
in
a
supersaturated
state
of
CO2
under
pressure.
In
the
atmosphere,
supersaturation
of
water
vapor
is
a
prerequisite
for
cloud
formation
and
precipitation,
given
the
presence
of
condensation
nuclei.
by
the
solubility
or
saturation
value
at
the
same
temperature.
Supersaturation
signifies
a
driving
force
toward
phase
change,
tempered
by
nucleation
kinetics
and
impurities.