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metalwrapped

Metalwrapped refers to structures in which a core material is coated with a metallic layer, forming a core–shell or sheath-like configuration. The term is used across nanomaterials, fibers, and thin films to describe metal-coated versions of carbon nanotubes, polymer fibers, semiconductor particles, or ceramic grains. The metal shell can range from a few nanometers to tens of nanometers and modifies surface properties while preserving much of the core's characteristics.

Synthesis methods include electroplating, electroless plating, chemical reduction, sputtering, physical vapor deposition, chemical vapor deposition, and

The metal shell typically increases electrical conductivity, chemical and thermal stability, and resistance to wear; it

Applications include electronics interconnects and contacts, sensors, catalysis, energy storage devices such as batteries and supercapacitors,

atomic
layer
deposition.
Wrapping
can
also
be
achieved
by
mechanical
winding
or
extrusion
methods
that
apply
a
metallic
wrap
around
a
core.
Choice
of
metal—such
as
gold,
silver,
nickel,
copper,
platinum,
or
aluminum—depends
on
desired
conductivity,
catalysis,
and
chemical
compatibility,
as
well
as
the
intended
application.
can
also
alter
optical
properties
through
surface
plasmon
effects
and
enable
catalytic
activity
at
the
shell
surface.
The
presence
of
a
metal
layer
can
improve
interfacial
bonding
and
serve
as
a
barrier
to
diffusion
between
core
and
environment.
antimicrobial
coatings,
and
protective
or
optical
coatings.
Challenges
encompass
adhesion
between
metal
and
core,
diffusion
and
intermetallic
formation,
precise
thickness
control,
residual
stress,
cost,
and
scalability,
especially
for
non-planar
shapes
or
nanoscale
cores.