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Nonreactive

Nonreactive describes substances that do not readily undergo chemical reactions with other substances under specified conditions. In common usage it is synonymous with inert, especially in reference to chemistry and materials science.

Reactivity depends on conditions such as temperature, pressure, solvent, and the presence of catalysts. Many substances

Examples include the noble gases, which are highly nonreactive at room temperature due to having complete electron

Important caveats: nonreactive does not imply absolute immutability. Under extreme conditions—high temperature, strong oxidizers, or strong

Applications include creating inert atmospheres for chemical reactions, corrosion-resistant materials, packaging for sensitive compounds, and electronic

See also: inert, reactivity, passivation, inert atmosphere, corrosion resistance.

appear
nonreactive
because
they
have
full
valence
electron
shells
or
because
reactions
are
kinetically
hindered
by
high
activation
energies.
Passivation
can
also
render
a
surface
nonreactive
by
forming
a
protective
layer,
as
with
many
metals
that
develop
oxide
films.
configurations.
Some
materials,
like
gold
or
silicon
dioxide,
show
low
reactivity
with
many
reagents
and
are
used
in
containers,
sensors,
and
laboratory
equipment.
In
biology
or
environmental
contexts,
nonreactive
surfaces
reduce
adsorption
and
fouling.
reducing
agents—substances
previously
considered
nonreactive
can
participate
in
reactions.
In
practical
terms,
chemists
specify
the
conditions
under
which
a
substance
is
nonreactive.
or
optical
components
where
chemical
stability
is
essential.