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adsorptio

Adsorptio is the process by which atoms, ions, or molecules from a gas, liquid, or dissolved phase accumulate on a solid or liquid surface, forming an adsorbed layer. It is distinct from absorption, where substances penetrate into the bulk of the material. Adsorptio can occur through physical forces (physisorption) or chemical bonding (chemisorption). Physisorption involves weak van der Waals interactions and is typically reversible; chemisorption involves stronger chemical bonds and can be more specific and less easily reversed at ambient conditions.

The extent and rate of adsorptio depend on temperature, pressure, surface area and porosity of the adsorbent,

Applications span environmental and industrial contexts: air and water purification, gas separation, catalyst supports, chromatography, sensors,

Kinetics and selectivity depend on diffusion within pores and on surface chemistry. Governing concepts include surface

and
the
chemical
nature
of
the
adsorbate.
Common
adsorbents
include
activated
carbon,
silica
gel,
zeolites,
metal-organic
frameworks,
clays,
and
porous
polymers.
Adsorption
isotherms
describe
how
much
is
adsorbed
at
a
given
pressure
or
concentration
at
constant
temperature;
examples
include
Langmuir
(monolayer
adsorption)
and
Freundlich
(heterogeneous
surfaces).
The
Brunauer–Emmett–Teller
method
provides
estimates
of
surface
area
from
gas
adsorption
data,
often
using
nitrogen.
and
energy
storage.
Adsorptio
is
often
reversible,
and
adsorbents
are
regenerated
by
heating,
vacuum,
or
solvent
washing,
enabling
repeated
use.
area,
pore
size
distribution,
and
interactions
between
adsorbate
and
adsorbent.
The
study
of
adsorptio
draws
on
foundational
models
developed
in
the
early
20th
century
by
Langmuir
and
BET,
among
others.