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polyarylene

Polyarylene is a broad class of polymers in which the repeating units contain arylene groups, such as phenylene or naphthylene, and are linked together primarily by carbon–carbon bonds between rings. The aryl rings impart rigidity and thermal stability to the chain, often resulting in high glass transition temperatures and chemical resistance. Architectures range from linear chains to crosslinked networks, and substituents or different linkers can tune properties and processability. Common subfamilies include polyphenylene derivatives and polyarylene ethers or sulfides, such as poly(p-xylylene) (parylene) and polyphenylene sulfide (PPS).

Synthesis and processing of polyarylene materials vary by structure. Routes include high-temperature polycondensation of aryl monomers,

Applications of polyarylene polymers leverage their thermal stability and chemical resistance. They are studied for high-temperature

oxidative
coupling
of
diaryl
precursors,
and
metal-catalyzed
cross-coupling
to
form
aryl–aryl
bonds.
A
notable
example
is
poly-para-xylylene,
produced
by
chemical
vapor
deposition
from
the
di-p-xylylene
dimer,
which
yields
conformal,
thin-film
coatings.
The
rigid
backbones
often
lead
to
poor
solubility
and
limited
melt
processing,
prompting
development
of
derivatives
with
heteroatoms
or
flexible
linkers
to
improve
processability.
structural
materials,
membranes,
and
electronic
components.
Parylene
coatings
provide
conformal
protective
layers
in
electronics,
medical
devices,
and
corrosion
protection,
while
PPS
and
related
polyarylene
sulfides
are
used
in
chemical
processing
equipment
and
automotive
components.
Overall,
the
polyarylene
class
emphasizes
durable,
high-performance
materials,
with
ongoing
research
aimed
at
balancing
strength,
stability,
and
manufacturability.