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ionenselektive

Ionenselektive is a term used to describe properties, materials, or devices that show a selective response to a specific ion in aqueous solution. In chemistry and analytical sensing, it is commonly associated with ion-selective electrodes and related membranes designed to target a single ion while suppressing interference from others. The concept underpins a range of sensors used for rapid, direct measurements of ionic species.

The core principle involves potentiometric sensing. An ion-selective electrode comprises a selective membrane separating a sample

Materials and ionophores used in ionenselektive devices vary. Membranes are commonly polymeric, sometimes glassy or crystalline,

Applications span clinical electrolyte analysis, environmental monitoring of water quality, soil and agricultural studies, and industrial

solution
from
an
internal
reference
solution.
The
target
ion
interacts
with
the
membrane
(often
via
an
ionophore
or
a
charged
additive),
creating
a
potential
difference
at
the
interface.
The
measured
potential
follows
a
Nernstian
response,
typically
about
59
mV
per
decade
change
in
activity
for
monovalent
ions
at
25
°C.
Selectivity
against
competing
ions
is
quantified
by
selectivity
coefficients,
as
described
by
the
Nikolskii-Eisenman
framework.
and
may
incorporate
ionophores
such
as
valinomycin
for
potassium
or
crown
ethers
for
sodium.
These
receptors
confer
high
affinity
for
the
target
ion.
Devices
may
be
solid-state,
coated-wire,
or
liquid-contact
electrodes,
and
can
be
adapted
for
in
situ
or
laboratory
measurements.
process
control.
While
ionenselektive
sensors
offer
rapid,
reagent-free
measurements,
they
can
be
affected
by
interfering
ions,
ionic
strength,
temperature,
and
membrane
aging,
necessitating
calibration
and
sometimes
compensation
for
matrix
effects.