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silicatemetal

Silicatemetal is a term used in materials science to describe solids that incorporate silicon in conjunction with metallic elements, typically as intermetallic compounds or silicides. The category covers well-defined stoichiometric phases such as MSi, MSi2, and M5Si3 (where M is a metal such as titanium, molybdenum, iron, nickel, or tungsten), as well as silicon-rich alloys where silicon forms a solid solution with a metal. Silicatemetals can occur as discrete compounds with ordered structures or as layered and composite-like systems.

In structure, silicatemetals often crystallize in ordered lattices with strong metal–silicon bonding. This underpins high hardness

Synthesis methods for silicatemetals include direct high-temperature reactions between silicon and the chosen metal, mechanical alloying

Applications are diverse. In electronics, silicatemetals serve as diffusion barriers and contact materials for silicon devices.

Limitations include brittleness for many intermetallic phases and processing challenges in achieving phase-pure materials. Safety considerations

See also: silicides, intermetallics, diffusion barrier, high-temperature materials.

and
elevated
melting
points
in
many
phases.
Their
electrical
properties
span
metallic
conduction,
semiconducting
behavior,
or
a
mix
depending
on
phase
and
composition.
Some
phases
are
relatively
brittle,
while
others
show
more
ductility,
depending
on
the
specific
intermetallic
structure.
followed
by
annealing,
and
deposition
techniques
such
as
chemical
vapor
deposition.
Controlling
stoichiometry
and
phase
purity
is
important,
as
different
silicide
phases
can
have
markedly
different
properties.
In
high-temperature
engineering,
silicides
such
as
MoSi2
and
WSi2
are
valued
for
their
oxidation
resistance
and
stability,
making
them
suitable
for
heating
elements
and
components
in
harsh
environments.
Some
silicatemetals
also
find
use
in
thermoelectric
devices
or
as
protective
coatings.
focus
on
handling
fine
powders
and
high-temperature
processing,
consistent
with
other
intermetallic
compounds.