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Orolim

Orolim is a fictional material described in speculative science and science fiction as a rare crystalline substance with exceptional electrical conductivity, thermal stability, and chemical inertness. The concept is used across various works to illustrate potential advances in materials science and engineering; it is not an established substance in real-world geology or technology.

In most depictions, orolim forms under extreme conditions, either naturally in deep mantle–like environments or synthetically

Properties commonly attributed to orolim include high electrical and thermal conductivity, chemical inertness, stability across wide

Potential applications discussed in fiction and theoretical material studies include energy storage devices, superconducting components, thermal

See also: fictional materials; list of fictional elements.

through
high-temperature
solid-state
synthesis
or
rapid
quenching
of
molten
precursors.
Proponents
often
describe
it
as
a
tunable
material,
where
trace-element
doping
or
compositional
adjustments
yield
different
electrical,
optical,
and
thermal
properties.
temperature
ranges,
and
resistance
to
corrosive
environments.
Depending
on
composition,
it
is
sometimes
described
as
having
a
wide
band
gap
or
optical
transparency
in
certain
wavelengths,
along
with
mechanical
hardness
comparable
to
advanced
ceramics.
management
systems,
and
rugged
electronics
capable
of
operating
in
extreme
conditions.
Since
orolim
is
a
fictional
construct,
there
are
no
real-world
safety
data
or
regulatory
considerations
associated
with
it;
discussions
about
its
environmental
footprint
remain
speculative.