MXenes,
a
class
of
2-dimensional
transition
metal
carbides
and
nitrides,
have
garnered
important
attention
due
to
their
remarkable
electrical
thermal
conductivity,
high
photothermal
conversion
efficiency,
multifunctionality.
This
review
explores
the
potential
MXene
materials
in
various
applications,
including
energy
storage,
heat
dissipation
electronic
devices,
mitigation
electromagnetic
interference
wearable
technologies.
Recent
advancements
composites,
such
as
MXene/bacterial
cellulose
aerogel
films
MXene/polymer
demonstrated
enhanced
performance
phase
change
storage
shielding,
underscoring
versatility
effectiveness.
Although
notable
progress
has
been
made,
challenges
remain,
need
for
deeper
understanding
mechanisms,
improvements
mechanical
properties,
exploration
diverse
types,
development
sustainable
synthesis
methods.
paper
discusses
these
aspects
outlines
future
research
directions,
emphasizing
growing
importance
MXenes
addressing
health,
safety
concerns
modern
applications.
Nano-Micro Letters,
Journal Year:
2024,
Volume and Issue:
17(1)
Published: Oct. 31, 2024
Robust,
ultra-flexible,
and
multifunctional
MXene-based
electromagnetic
interference
(EMI)
shielding
nanocomposite
films
exhibit
enormous
potential
for
applications
in
artificial
intelligence,
wireless
telecommunication,
portable/wearable
electronic
equipment.
In
this
work,
a
nacre-inspired
heterocyclic
aramid
(HA)/MXene@polypyrrole
(PPy)
(HMP)
paper
with
large-scale,
high
strength,
super
toughness,
excellent
tolerance
to
complex
conditions
is
fabricated
through
the
strategy
of
HA/MXene
hydrogel
template-assisted
in-situ
assembly
PPy.
Benefiting
from
"brick-and-mortar"
layered
structure
strong
hydrogen-bonding
interactions
among
MXene,
HA,
PPy,
exhibits
remarkable
mechanical
performances,
including
tensile
strength
(309.7
MPa),
outstanding
toughness
(57.6
MJ
m
MXenes,
a
class
of
2-dimensional
transition
metal
carbides
and
nitrides,
have
garnered
important
attention
due
to
their
remarkable
electrical
thermal
conductivity,
high
photothermal
conversion
efficiency,
multifunctionality.
This
review
explores
the
potential
MXene
materials
in
various
applications,
including
energy
storage,
heat
dissipation
electronic
devices,
mitigation
electromagnetic
interference
wearable
technologies.
Recent
advancements
composites,
such
as
MXene/bacterial
cellulose
aerogel
films
MXene/polymer
demonstrated
enhanced
performance
phase
change
storage
shielding,
underscoring
versatility
effectiveness.
Although
notable
progress
has
been
made,
challenges
remain,
need
for
deeper
understanding
mechanisms,
improvements
mechanical
properties,
exploration
diverse
types,
development
sustainable
synthesis
methods.
paper
discusses
these
aspects
outlines
future
research
directions,
emphasizing
growing
importance
MXenes
addressing
health,
safety
concerns
modern
applications.
