Nano-Micro Letters,
Journal Year:
2024,
Volume and Issue:
16(1)
Published: June 6, 2024
Abstract
With
the
development
of
science
and
technology,
scale
industrial
production
continues
to
grow,
types
quantities
gas
raw
materials
used
in
produced
during
process
are
also
constantly
increasing.
These
gases
include
flammable
explosive
gases,
even
contain
toxic
gases.
Therefore,
it
is
very
important
necessary
for
sensors
detect
monitor
these
quickly
accurately.
In
recent
years,
a
new
two-dimensional
material
called
MXene
has
attracted
widespread
attention
various
applications.
Their
abundant
surface
functional
groups
sites,
excellent
current
conductivity,
tunable
chemistry,
outstanding
stability
make
them
promising
sensor
Since
birth
materials,
researchers
have
utilized
efficient
convenient
solution
etching
preparation,
high
flexibility,
easily
functionalize
with
other
prepare
composites
sensing.
This
opened
chapter
high-performance
sensing
provided
approach
advanced
research.
However,
previous
reviews
on
MXene-based
composite
only
focused
performance
sensing,
without
systematically
explaining
mechanisms
generated
by
different
as
well
summarizing
predicting
advantages
disadvantages
materials.
article
latest
progress
application
Firstly,
brief
summary
was
given
commonly
methods
preparing
device
structures,
followed
an
introduction
key
attributes
related
performance.
focuses
such
MXene/graphene,
MXene/Metal
oxide,
MXene/Transition
metal
sulfides
(TMDs),
MXene/Metal–organic
framework
(MOF),
MXene/Polymer.
It
summarizes
discusses
possible
Finally,
future
directions
inroads
MXenes-based
presented
discussed.
Advanced Functional Materials,
Journal Year:
2023,
Volume and Issue:
33(50)
Published: Aug. 6, 2023
Abstract
MXene
and
graphene
cryogels
have
demonstrated
excellent
electromagnetic
interference
(EMI)
shielding
effectiveness
due
to
their
exceptional
electrical
conductivity,
low
density,
ability
dissipate
waves
through
numerous
internal
interfaces.
However,
synthesis
demands
costly
reduction
techniques
and/or
pre‐processing
methods
such
as
freeze‐casting
achieve
high
EMI
mechanical
performance.
Furthermore,
limited
research
has
been
conducted
on
optimizing
the
cryogel
microstructures
porosity
enhance
while
reducing
materials
consumption.
Herein,
a
novel
approach
produce
ultra‐lightweight
composed
of
Ti
3
C
2
T
x
/graphene
oxide
(GO)
displaying
multiscale
is
presented
enable
high‐performance
shielding.
This
method
uses
controllable
templating
interfacial
assembly
filamentous‐structured
liquids
that
are
readily
converted
into
cryogels.
The
obtained
ultra‐flyweight
(3–7
mg
cm
−3
)
exhibit
outstanding
specific
(33
000–50
000
dB
g
−1
eliminating
need
for
chemical
or
thermal
reduction.
achieved
when
/GO
used
backbone
conductive
epoxy
nanocomposites,
yielding
31.7–51.4
at
filler
loading
(0.3–0.7
wt%).
Overall,
one‐of‐a‐kind
system
introduced
processed
affording
scalability
Nano-Micro Letters,
Journal Year:
2024,
Volume and Issue:
16(1)
Published: June 6, 2024
Abstract
With
the
development
of
science
and
technology,
scale
industrial
production
continues
to
grow,
types
quantities
gas
raw
materials
used
in
produced
during
process
are
also
constantly
increasing.
These
gases
include
flammable
explosive
gases,
even
contain
toxic
gases.
Therefore,
it
is
very
important
necessary
for
sensors
detect
monitor
these
quickly
accurately.
In
recent
years,
a
new
two-dimensional
material
called
MXene
has
attracted
widespread
attention
various
applications.
Their
abundant
surface
functional
groups
sites,
excellent
current
conductivity,
tunable
chemistry,
outstanding
stability
make
them
promising
sensor
Since
birth
materials,
researchers
have
utilized
efficient
convenient
solution
etching
preparation,
high
flexibility,
easily
functionalize
with
other
prepare
composites
sensing.
This
opened
chapter
high-performance
sensing
provided
approach
advanced
research.
However,
previous
reviews
on
MXene-based
composite
only
focused
performance
sensing,
without
systematically
explaining
mechanisms
generated
by
different
as
well
summarizing
predicting
advantages
disadvantages
materials.
article
latest
progress
application
Firstly,
brief
summary
was
given
commonly
methods
preparing
device
structures,
followed
an
introduction
key
attributes
related
performance.
focuses
such
MXene/graphene,
MXene/Metal
oxide,
MXene/Transition
metal
sulfides
(TMDs),
MXene/Metal–organic
framework
(MOF),
MXene/Polymer.
It
summarizes
discusses
possible
Finally,
future
directions
inroads
MXenes-based
presented
discussed.
