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photoanode

A photoanode is the electrode in a photoelectrochemical cell that functions as the site of oxidation when illuminated. When light is absorbed by a semiconductor with an appropriate bandgap, electron–hole pairs are generated. The photogenerated holes migrate to the surface and oxidize species in contact with the electrolyte, typically oxidizing water to oxygen. The conduction-band electrons are extracted through the external circuit to drive reduction reactions at the counter electrode.

Photoanode materials are usually n-type semiconductors such as titanium dioxide (TiO2), tungsten trioxide (WO3), hematite (Fe2O3),

Key design goals for photoanodes include reducing recombination of charge carriers, improving hole transfer to the

Applications center on photoelectrochemical water splitting for solar fuel production, where the photoanode supplies holes to

and
other
oxides
like
BiVO4
or
SrTiO3.
They
are
often
fabricated
as
nanostructured
films—nanorods,
nanotubes,
or
mesoporous
layers—to
maximize
surface
area
and
improve
charge
transport.
In
dye-sensitized
configurations,
a
sensitizing
dye
absorbs
light
and
injects
electrons
into
the
semiconductor,
while
surface
cocatalysts
or
catalysts
(for
example
IrO2,
RuO2,
Co–Pi,
NiFeOx)
enhance
the
oxygen
evolution
reaction.
electrolyte,
and
ensuring
stability
in
aqueous
environments.
Challenges
include
limited
light
absorption
for
wide-bandgap
materials
and
slow
oxygen
evolution
kinetics,
which
can
be
addressed
with
protective
coatings,
doping,
and
advanced
nanostructures.
oxidize
water,
paired
with
a
cathode
to
reduce
hydrogen.
Photoanodes
are
also
used
in
dye-sensitized
solar
cells
as
the
illuminated
electrode.
Characterization
methods
include
photocurrent–voltage
measurements,
incident
photon-to-current
efficiency,
and
impedance
spectroscopy.