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germaniumbased

Germanium-based materials are compounds and alloys in which the element germanium (Ge) is a principal constituent. The category encompasses elemental germanium, inorganic compounds such as germanates and germanides, and a range of alloys and organogermanium compounds used in industry. In electronics and photonics, germanium-based materials are especially important because germanium offers higher carrier mobility than silicon and can be integrated with silicon technology.

In semiconductor applications, silicon–germanium (SiGe) alloys are used to modify lattice constants and improve transistor performance

Ge-based materials are typically produced by refining germanium from ore deposits, then refining to ultra-high-purity grades

through
strain
engineering.
Germanium–tin
(GeSn)
alloys
are
explored
for
infrared
and
mid-infrared
optoelectronics;
germanium
can
also
serve
as
a
platform
for
germanium-on-insulator
structures
and
other
heterogeneous
integrations.
In
optics,
germanium
and
Ge-containing
compounds
(such
as
GeO2)
are
valued
for
infrared
transmission
and
as
materials
for
lenses
and
waveguides.
Organogermanium
compounds
have
been
studied
in
chemistry
and
materials
science,
with
niche
applications
in
catalysis
and
advanced
materials.
required
for
semiconductor
device
fabrication.
Most
germanium
is
recovered
as
a
byproduct
of
zinc
ore
processing.
Because
of
its
compatibility
with
silicon
technology,
germanium-based
materials
continue
to
be
an
area
of
research
for
high-speed
electronics,
integrated
photonics,
and
infrared
optics.