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capturedcharged

Capturedcharged is a term used in materials science to describe a localized, charged state in which a free charge carrier (electron or hole) becomes trapped at a defect or impurity within a solid. The term reflects the combination of the capture event and the resulting stationary charge, in contrast to free carriers that move through the material.

Mechanism and energetics: Trapping occurs at defect states within the band gap or at shallow surfaces, with

Implications in materials and devices: The presence of captured charges reduces free carrier density and mobility,

Relation to related concepts: The concept overlaps with trap states, defect levels, and charge localization. It

a
capture
cross-section,
and
occupancy
depends
on
the
Fermi
level
and
temperature.
A
captured
charge
is
typically
tied
to
a
defect
site
and
may
be
released
thermally
or
via
optical
excitation,
returning
to
the
conduction
or
valence
band.
The
capturedcharged
state
can
be
short-lived
or
long-lived,
depending
on
trap
depth
and
the
local
environment.
alters
recombination
dynamics,
and
can
give
rise
to
persistent
photoconductivity
or
spectral
response
changes.
In
semiconductors
and
photovoltaics,
trap-related
capture
affects
minority-carrier
lifetimes,
diffusion
lengths,
and
device
performance.
In
ionic
crystals
or
organic
semiconductors,
similar
trap
states
influence
dielectric
behavior
and
charge
transport.
is
often
discussed
alongside
'traps,'
'deep-level
defects,'
and
'charge
trapping'
in
the
literature.
The
exact
usage
of
'capturedcharged'
varies
and
is
not
universally
adopted;
some
authors
prefer
more
conventional
terminology.