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dopanten

Dopanten is the plural form of the word dopant in some languages and is used to refer to impurities intentionally introduced into a material to alter its properties. In materials science, dopants are added to modify characteristics such as electrical conductivity, optical response, or mechanical behavior, with semiconductor doping being the most prominent example.

In semiconductors, dopants create n-type or p-type materials. N-type dopants donate electrons to the host lattice,

Dopants are introduced through various fabrication methods, including diffusion, ion implantation, and epitaxial growth. The concentration,

Applications of dopants span many devices, notably pn junction diodes, transistors, solar cells, and light-emitting diodes.

Terminology notes: in English, “dopants” is the standard term, while “dopanten” appears in some languages as the

producing
extra
negative
charge
carriers,
while
p-type
dopants
create
holes
by
accepting
electrons,
resulting
in
positive
charge
carriers.
Common
examples
include
silicon
doped
with
phosphorus,
arsenic,
or
antimony
for
n-type
behavior,
and
silicon
doped
with
boron,
aluminum,
or
gallium
for
p-type
behavior.
distribution,
and
activation
of
dopant
atoms
influence
device
performance.
Key
factors
include
diffusion
coefficients,
annealing
temperatures,
and
potential
lattice
damage
that
requires
repair
steps.
Precise
dopant
control
enables
tuning
of
threshold
voltages,
carrier
lifetimes,
and
junction
depths,
which
are
essential
for
modern
electronics
and
optoelectronics.
plural
form.
See
also:
doping,
semiconductor,
pn
junction,
ion
implantation.