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solidcontact

Solidcontact is a term used in electrochemistry to describe an electrode architecture in which the ion-selective membrane of an ion-selective electrode (ISE) is directly interfaced with a solid conductive transducer layer, eliminating the need for a liquid junction and inner filling solution. This arrangement allows ion activity to be converted into an electrical signal through a solid material rather than through a liquid-contact pathway, enabling the creation of fully solid-state sensors.

Common solid-contact materials include conducting polymers such as PEDOT:PSS and polypyrrole, carbon-based materials like graphene and

Advantages of solid-contact electrodes include the potential for fully solid-state, compact, and flexible sensors that are

Challenges remain, however. Potential drift over time can arise from slow redox processes at the solid contact

Applications of solid-contact ISEs span environmental monitoring, clinical diagnostics, and industrial process control, including sensors for

carbon
nanotubes,
porous
carbon,
and
various
metal
oxides
or
composites.
The
solid-contact
layer
typically
acts
as
a
transducer
that
facilitates
charge
transfer,
providing
either
capacitive
or
mixed
transduction
mechanisms
to
convey
the
ion
signal
to
the
underlying
electronic
circuitry.
easier
to
manufacture
and
handle,
with
reduced
risk
of
leakages
and
membrane
drying.
They
can
also
offer
improved
mechanical
stability
and
compatibility
with
miniaturized
and
portable
analytical
platforms,
as
well
as
easier
integration
with
microfabrication
processes.
or
from
changes
at
the
interface.
The
formation
of
a
thin
water
layer
under
the
membrane
can
still
occur
if
the
contact
is
not
properly
designed,
compromising
stability.
Reproducibility
and
long-term
stability
of
the
solid-contact
layer,
along
with
selectivity
and
fouling
resistance,
are
active
areas
of
research.
ions
such
as
Na+,
K+,
Ca2+,
Cl−,
and
nitrate,
often
in
conjunction
with
microfluidic
or
wearable
systems.