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colloïdales

Colloïdales are used in French to refer to colloidal systems, or more generally to substances in which a dispersed phase consists of nanoscale particles distributed within a continuous phase. In English, these systems are called colloids. Particle sizes typically range from about 1 nanometer to several hundred nanometers. Because of their size, colloidal particles scatter light (the Tyndall effect) and undergo Brownian motion, which helps prevent sedimentation and contributes to stability.

In a colloidal system, the dispersed phase is the finely divided material, and the continuous phase is

Common categories include sols (solid particles in liquid), gels (networked solid within liquid), emulsions (one liquid

Formation methods include dispersion of larger particles and condensation of molecules to form discrete particles. Applications

the
surrounding
medium.
Colloids
are
commonly
classified
as
hydrophilic
or
hydrophobic,
depending
on
their
affinity
for
the
continuous
phase.
Stabilization
mechanisms
include
electrostatic
repulsion,
where
charged
species
adsorb
on
particle
surfaces,
and
steric
stabilization,
where
polymers
or
surfactants
create
a
physical
barrier
to
aggregation.
Colloidal
stability
can
be
threatened
by
changes
in
pH,
ionic
strength,
or
temperature,
leading
to
aggregation
or
coagulation
(flocculation)
and
sometimes
phase
separation.
dispersed
in
another
immiscible
liquid),
foams
(gas
dispersed
in
liquids
or
solids),
and
aerosols
(solid
or
liquid
particles
dispersed
in
a
gas).
Examples
include
milk
(proteins
and
fats
in
water),
ink,
paint
suspensions,
fog,
and
clouds.
span
food,
medicine,
materials
science,
cosmetics,
and
environmental
science.
Colloidal
properties
are
studied
in
physical
chemistry,
including
stability
theories
such
as
electrostatic
double
layer
and
steric
stabilization.