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adsorbent

An adsorbent is a solid material that presents a large surface area and porous structure to attract, hold, and store molecules from a gas or liquid on its surface, a process known as adsorption. Adsorbents differ from absorbents, which take up substances into a bulk phase; adsorption is a surface phenomenon.

Key properties include high surface area, controlled porosity, and chemical stability in the target environment. Pore

Adsorption mechanisms include physical adsorption (physisorption) driven by van der Waals forces and chemical adsorption (chemisorption)

Regeneration and reuse are common: adsorbents can often be restored by heating (thermal desorption), reduced pressure,

Limitations include finite capacity, ageing that reduces performance, and selectivity limitations in mixed feeds. Proper design

size
distribution
(micropores,
mesopores,
macropores)
and
surface
chemistry
determine
capacity
and
selectivity.
Common
adsorbents
include
activated
carbon,
silica
gel,
alumina,
zeolites,
clays,
and
ion-exchange
resins.
More
recently,
metal-organic
frameworks
and
porous
polymers
have
expanded
options.
involving
bond
formation.
Temperature,
pressure,
and
moisture
influence
capacity
and
kinetics.
Adsorbents
are
used
in
gas
purification
(removing
CO2,
water
vapor,
hydrocarbons),
air
and
odor
control,
water
treatment
(organic
contaminants,
heavy
metals),
catalysis
support,
and
separation
processes
such
as
dehydration
and
desalination
by
adsorption.
or
solvent
washing,
enabling
multiple
cycles.
Selection
criteria
include
surface
area,
pore
structure,
chemical
compatibility
with
the
feed,
mechanical
strength,
thermal
stability,
resistance
to
fouling,
regeneration
efficiency,
and
cost.
and
pretreatment
help
maximize
service
life
and
economic
viability.