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oxideperovskieten

Oxideperovskieten are a class of oxide-based perovskite materials that are often treated as a subgroup of the broader oxide perovskite family. The term is used in some sources to denote compounds with the general ABO3 framework, where A is a larger cation and B is a smaller transition-metal cation, coordinated by six oxygen atoms. Variants with oxygen vacancies or mixed A- and B-site occupancy expand the compositional space and tune properties.

In the ideal perovskite structure, BO6 octahedra form a three-dimensional network with A-site cations occupying interstitial

Synthesis and processing commonly involve solid-state reactions at high temperatures, sol-gel routes, or solution-based routes, followed

Properties of oxideperovskieten are diverse and highly tunable through chemical composition and processing. They can exhibit

Research on oxideperovskieten focuses on dopant strategies, defect engineering, and stable, scalable synthesis. Ongoing challenges include

sites.
Distortions,
octahedral
tilts,
and
cation
ordering
can
lead
to
cubic,
tetragonal,
or
orthorhombic
symmetry.
Oxygen
deficiencies
(δ)
create
ionic
defects
that
contribute
to
mixed
ionic-electronic
conductivity,
important
for
energy
and
catalytic
applications.
by
sintering.
Thin
films
and
epitaxial
layers
can
be
grown
by
methods
such
as
pulsed
laser
deposition
or
metal-organic
chemical
vapor
deposition
to
achieve
controlled
crystallinity
and
strain.
ferroelectric,
piezoelectric,
dielectric,
catalytic,
and
ionic-conducting
behavior,
with
band
gaps
and
redox
properties
adjustable
via
B-site
chemistry.
Applications
span
solid
oxide
fuel
cells,
sensors,
catalysis,
and
electronic
devices.
controlling
phase
stability,
mitigating
oxygen
loss
at
high
temperatures,
and
integrating
materials
into
devices.