Open Ceramics,
Год журнала:
2023,
Номер
17, С. 100526 - 100526
Опубликована: Дек. 12, 2023
MXene,
a
two-dimensional
(2D)
carbide,
carbonitride,
and
nitride,
was
discovered
in
2011.
A
certain
number
of
elements
the
periodic
table
have
contributed
to
synthesis
MXene
from
beginning
present.
Most
researchers,
however,
are
focused
on
particular
type
Ti3C2Tx,
although
scientific
community
seldom
considers
cost
this
outstanding
potentially
helpful
substance.
Herein,
we
explore
by
going
through
each
stage
production
process.
Instead,
actual
may
vary
small
margin
due
differences
materials
procedures.
However,
study
provides
clear
understanding
cost,
which
is
governed
steps
directly
involved
characterization
MXene.
The
associated
with
various
essential
tools
like
scanning
electron
microscope
(SEM),
transmission
(TEM),
ultraviolet–visible
spectroscopy
(UV–Vis),
x-ray
diffraction
(XRD)
necessary
ensure
successful
All
local
expenses
converted
into
USD,
except
for
instrumental
life
cycle
analysis
infrastructure
values.
gram
predicted
be
$20.33.
close
market
price
proving
accuracy
calculation
presented
research.
This
work
will
assist
planning
optimizing
MXene's
procedures
so
that
can
reduced
if
material
produced
larger
scale.
ACS Applied Materials & Interfaces,
Год журнала:
2024,
Номер
16(31), С. 41596 - 41615
Опубликована: Июль 27, 2024
MXene
emerges
as
a
premier
candidate
for
electromagnetic
shielding
owing
to
its
unique
properties
novel
two-dimensional
material.
Its
exceptional
electrical
conductivity,
chemical
reactivity,
surface
tunability,
and
facile
processing
render
it
highly
suitable
diverse
applications.
The
research
status
of
MXene-based
materials
is
systematically
discussed
in
this
paper.
First,
the
single-component
material
briefly
introduced.
Subsequently,
composite
structures
constructed
by
with
polymers,
carbon
derivatives,
ferrites
introduced
detail.
Furthermore,
progress
ternary
quaternary
further
focused.
Finally,
application
prospected.
A
deeper
understanding
MXene's
facilitated
paper,
providing
direction
future
development
design
materials.
ACS Applied Nano Materials,
Год журнала:
2024,
Номер
7(4), С. 3748 - 3760
Опубликована: Фев. 5, 2024
As
wearable
electronics
and
medical
implants
evolve,
there
is
an
increasing
demand
for
protective
devices
that
provide
both
electromagnetic
interference
(EMI)
shielding
heating
capabilities
while
operating
at
weaker
voltages
to
accommodate
various
power
sources.
Herein,
a
simple,
cost-friendly,
step-by-step
vacuum-assisted
filtration
method
utilized
prepare
asymmetrical
layered
"MXene–MXene@silver
nanowires(AgNWs)-MXene-AgNWs"
hybrid
films,
exhibiting
"mille-feuille"-like
structure
with
thickness
of
9.02
μm,
possessing
enhanced
flexibility
suitable
applications.
This
composite
exploits
the
excellent
electrical
thermal
conductivity
AgNWs
together
notable
EMI
performance
MXene
(SE/t
=
112,967
dB
cm–1
).
By
tuning
layer
AgNW
framework,
multilayer
structured
film
achieves
effectiveness
68,825
cm–1).
Due
introduction
layer,
its
interface
reflection
properties
lead
differential
wave
(EMW)
consumption
in
structure,
resulting
62.08
dB.
The
attributed
reflection,
which
significantly
increases
effective
pathway
incident
EMWs.
Moreover,
Joule
reaches
227.7
°C
1.0
V,
superior
ultralow
voltage
drive
characteristic.
flexible
self-supported
has
significant
potential
applications
protecting
human
body
implants,
such
as
cardiac
pacemakers,
from
influence
pollution.
Furthermore,
it
can
be
extreme
weather
conditions
deicing,
defogging,
antifreezing
purposes.
Polymer Reviews,
Год журнала:
2024,
Номер
64(3), С. 761 - 817
Опубликована: Фев. 26, 2024
Aerogels
have
attracted
strong
research
interest
for
use
in
harsh
environmental
conditions
due
to
their
ultra-low
density,
low
thermal
conductivity,
and
high
specific
surface
area.
However,
long-term
applications
sol-gel-based
aerogels
remain
limited
poor
mechanical
properties.
For
this
reason,
MXene-based
derived
from
two-dimensional
nanosheets
received
significant
attention
unique
structure,
outstanding
electrical
conductivity
In
review,
a
timely
systematic
overview
of
recent
advances
polymer-incorporated
MXene
aerogels,
synthesis
practical
applications,
is
provided.
particular,
state-of-the-art
strategies
the
performance
different
types
polymer-crosslinked
are
discussed,
followed
by
description
multifunctional
sensors,
energy
storage
conversion
processes,
management,
electromagnetic
interference
shielding,
water
purification.
The
properties
polymer-
incorporated
fabricated
using
conducting,
non-conducting,
bio-,
synthetic
polymers
thoroughly
described,
strengths
limitations
class
aerogel
potential
future
developments
also
addressed.
Nowadays,
in
view
of
the
increasingly
serious
problems
electromagnetic
interference
(EMI)
and
radiation
pollution,
smart
EMI
shielding
materials
with
tunable
effectiveness
(SE),
especially
“On/Off”
switchable
capability,
are
highly
desirable.
Herein,
Co‐based
amorphous
wires
(AWs)
excellent
soft
magnetic
mechanical
properties
regularly
arranged
on
a
3D‐printed
mold
as
composites.
The
SE
can
be
easily
tuned
range
≈0.6–24.7
dB
by
way
rotation,
which
has
been
confirmed
to
an
effective
achieve
free
tuning
simulation.
In
addition,
compositing
AWs
reduced
graphene
oxide
constructing
double‐layer
structure
gap
1/4
wavelength
X‐band,
much
wider
≈1.0–57.7
is
further
realized.
representative
capability
that
switch
between
EM
transmission
shielding,
together
wide
larger
than
50
dB,
shows
great
potential
AW
composites
applications.
