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desorbing

Desorbing is the process by which molecules that are adsorbed on a surface detach and move into the surrounding phase. Desorption is the reverse of adsorption and is a fundamental step in many surface phenomena, including catalysis, sensing, filtration, and gas sorption. Desorbing can occur at solid–gas, solid–liquid, or solid–solid interfaces, depending on the system and conditions.

Desorption can proceed through several mechanisms. Thermal desorption uses heat to supply the energy required to

Kinetics and factors: The rate of desorption generally increases with temperature and decreases with stronger binding

Applications and methods: Experimental techniques such as temperature-programmed desorption (TPD) and thermal desorption spectroscopy (TDS) quantify

overcome
binding
between
the
surface
and
the
adsorbate.
Photodesorption
involves
photons
transferring
energy
to
promote
detachment.
Chemical
desorption
occurs
when
surface
reactions
release
products
that
leave
the
surface,
and
electron-
or
ion-stimulated
desorption
uses
energetic
particles
to
eject
adsorbates.
The
dominant
mechanism
depends
on
the
material,
temperature,
and
binding
strength.
and
higher
surface
coverage.
Desorption
can
follow
different
kinetic
orders
(often
first
order
for
isolated
species),
and
is
typically
analyzed
with
activation
energies
and
Arrhenius-type
expressions.
Surface
roughness,
porosity,
and
co-adsorbates
can
alter
desorption
energies
and
rates.
In
steady
conditions,
desorption
competes
with
adsorption
and
transport
processes.
desorption
by
monitoring
desorbed
species
as
a
function
of
temperature.
Desorption
studies
inform
catalysis
design,
environmental
remediation,
material
science,
and
chromatography,
where
controlled
release
or
recovery
of
adsorbates
is
relevant.