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hygroscopicity

Hygroscopicity is the tendency of a substance to attract and hold water molecules from the surrounding environment, through adsorption on surfaces or absorption into the bulk. The degree of hygroscopicity depends on chemical composition, molecular structure, and surface properties, and materials with strong hygroscopicity can take up moisture even at relatively low relative humidity.

Moisture uptake occurs by adsorption, where water molecules bind to surfaces via hydrogen bonding or ionic

Measurement and modeling commonly use moisture sorption isotherms, which describe how moisture content at a fixed

Applications and implications span pharmaceuticals, foods, and construction materials. In pharmaceuticals, hygroscopicity affects powder flow, stability,

Related concepts include deliquescence, efflorescence, sorption, and water activity.

interactions,
and
by
absorption,
where
water
penetrates
into
the
material.
Factors
that
influence
hygroscopicity
include
relative
humidity,
temperature,
porosity,
surface
area,
and
the
presence
of
soluble
salts
or
highly
polar
groups.
Deliquescent
materials
absorb
moisture
to
the
point
that
they
dissolve,
forming
an
aqueous
solution,
while
non-deliquescent
hygroscopic
substances
may
simply
swell,
plasticize,
or
cake.
temperature
varies
with
relative
humidity.
Techniques
such
as
dynamic
vapor
sorption
(DVS)
provide
experimental
data.
Equilibrium
moisture
content
(EMC)
is
the
moisture
level
at
equilibrium.
Isotherm
models
(for
example
BET
or
GAB)
are
used
to
fit
data
and
predict
behavior
under
different
humidity
conditions.
and
storage
requirements,
often
necessitating
desiccants
and
moisture-controlled
packaging.
In
foods,
moisture
uptake
influences
texture,
caking,
and
shelf
life.
In
materials
science,
moisture
absorption
can
alter
mechanical
properties
and
dimensional
stability,
underscoring
the
importance
of
humidity
control
in
product
design
and
storage.