ACS Applied Nano Materials,
Journal Year:
2023,
Volume and Issue:
6(15), P. 14459 - 14468
Published: July 26, 2023
Developing
multifunctional
electronic
fabrics
with
sensing
capabilities,
electromagnetic
interference
(EMI)
shielding,
and
Joule
heating
performance
holds
great
significance
for
health
monitoring
medical
protection.
However,
most
struggle
to
combine
multiple
functions
optimize
them
simultaneously.
For
example,
achieving
both
high
sensitivity
a
wide
detection
range
in
devices
remains
challenge.
In
this
paper,
we
present
multidimensional
composite
structure
comprising
MXene
Ti3C2Tx
nano
lamellar,
self-assembled
lotus
leaf-like
MXene/EGaIn
carbon
nanotubes
(CNTs)
assembled
on
the
surface
of
thermoplastic
polyurethane
create
EGaIn/MXene
CNT
fabric
(MEMC
fabric).
The
materials
form
stable
conductive
network
under
tension.
As
strain
sensor,
MEMC
exhibits
large
(0–360%)
ultra-high
(GF
∼
114,700),
making
it
suitable
artificial
eardrum
research.
Additionally,
demonstrates
excellent
EMI
shielding
effect
(∼73
dB)
maintains
good
tensile
conditions.
also
showcases
outstanding
(low
voltage
drive
∼2
V,
fast
time
∼13
s,
stability
∼4000
s).
This
paper
combination
fabrics,
simultaneous
sensing,
stretching.
work
offers
forward-looking
approach
constructing
resulting
hold
potential
applications
portable
defense
industries.
Small,
Journal Year:
2024,
Volume and Issue:
20(46)
Published: Aug. 7, 2024
Abstract
With
the
rapid
development
of
electronic
industry,
it's
pressing
to
develop
multifunctional
electromagnetic
interference
(EMI)
shielding
materials
ensure
stable
operation
devices.
Herein,
multilayered
flexible
PEG@PAN/MXene
(Ti
3
C
2
T
x
)/PVDF@SiO
(PMF)
composite
film
has
been
constructed
from
level
microstructure
design
via
coaxial
electrospinning,
coating
spraying,
and
uniaxial
electrospinning
strategies.
Benefiting
effective
encapsulation
for
PEG
high
conductivity
MXene
coating,
with
loading
density
0.70
mg
cm
−2
exhibits
thermal
energy
storage
120.77
J
g
−1
great
EMI
performance
(EMI
SE
34.409
dB
SSE
49.086
)
in
X‐band
(8–12
GHz).
Therefore,
this
advanced
can
not
only
help
devices
prevent
influence
pollution
but
also
play
an
important
role
device
management.
Additionally,
deposition
nano
PVDF@SiO
fibers
(289
±
128
nm)
endowed
PMF
hydrophobic
properties
(water
contact
angle
126.5°)
working
hydrophilic
thereby
breaks
limitation
humid
application
environments.
The
finding
paves
a
new
way
novel
films
Soft Science,
Journal Year:
2025,
Volume and Issue:
5(1)
Published: Jan. 18, 2025
Heterointerface
engineering
has
drawn
considerable
interest
in
tuning
interfacial
polarization
and
promoting
impedance
matching.
Therefore,
it
become
a
key
strategy
for
optimizing
electromagnetic
wave
(EMW)
absorption.
This
comprehensive
review
primarily
focused
on
the
EMW
absorbing
strategies
of
polymer-based
materials,
emphasizing
critical
developments
heterointerface
engineering.
A
possible
mechanism
materials
was
proposed,
synergism
multi-components,
microstructure
design,
Key
innovations
structural
design
such
as
porous
structure,
multilayered
segregated
structure
are
explored,
highlighting
their
contributions
to
enhancing
Also,
highlights
latest
research
progress
advanced
conductive
insulating
with
desirable
absorption
performance;
fabrication
methods,
structures,
properties,
mechanisms
were
elucidated
detail.
challenges
presented
followed
by
some
future
perspectives.
