ACS Nano,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 9, 2025
Multifunctional
materials
are
accelerating
the
development
of
soft
electronics
with
integrated
capabilities
including
wearable
physical
sensing,
efficient
thermal
management,
and
high-performance
electromagnetic
interference
shielding.
With
outstanding
mechanical,
thermal,
electrical
properties,
nanocarbon
offer
ample
opportunities
for
designing
multifunctional
devices
broad
applications.
Surface
interfacial
engineering
have
emerged
as
an
effective
approach
to
modulate
interconnected
structures,
which
may
tunable
synergistic
effects
precise
control
over
transport,
properties.
This
review
presents
a
comprehensive
summary
recent
advances
empowering
via
surface
in
context
techniques,
structural
evolution,
their
wide
Special
emphasis
is
placed
on
identifying
critical
correlations
between
structures
across
nanoscales,
microscales,
macroscales
The
challenges
currently
faced
by
examined,
potential
applications
also
revealed.
We
anticipate
that
this
will
promote
further
trigger
ideas
design
multidisciplinary
Advanced Functional Materials,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Sept. 24, 2024
Abstract
A
new
galvanic
cell
design
of
a
self‐powered
and
3D‐printable
soft
sensor
showing
health
monitoring,
object
recognition,
contactless
hand
gesture
is
reported.
The
consists
3D‐printed
poly(acrylic
acid)
(PAA)
hydrogel
electrolyte
layer,
anode
cathode
layer.
layer
Cu
2+
cross‐linked
poly(
N
,
‐dimethylacrylamide‐
co
‐3‐alanine‐2‐hydroxypropylmethacrylate)
(PDA)
dispersed
with
metal
particles
(PDA/Cu
/Cu
hydrogel),
while
the
bottom
thin
PAA
containing
MnO
2
(PAA/MnO
).
Using
graphite
films
as
electrodes,
finally
assembled.
has
high
force
temperature
sensitivities.
It
gives
different
electric
current
responses
under
stretching,
bending,
pressing,
impact
loading.
demonstrated
to
be
useful
in
detecting
human
motion
physiological
activities,
e.g.,
breath.
Based
on
sensitivities,
used
recognize
gestures
plastic
balls
diameters.
This
3D
printable
self‐powering,
capturing,
multi‐pimulus
sensing
capabilities
illustrates
pathway
make
sensory
devices
for
healthcare
human‐machine
interaction
applications.
Nanomaterials,
Journal Year:
2025,
Volume and Issue:
15(2), P. 98 - 98
Published: Jan. 9, 2025
Although
materials
with
infrared
camouflage
capabilities
are
increasingly
being
produced,
few
applications
exist
in
clothing
fabrics.
Here,
graphene/MXene-modified
fabric
superior
camouflage,
Joule
heating,
and
electromagnetic
shielding
all
one
was
prepared
by
simply
scraping
a
graphene
slurry
onto
alkali-treated
cotton
fabrics,
followed
spraying
MXene.
The
functionality
of
the
modified
fabrics
after
different
treatment
times
then
tested
analyzed.
results
indicate
that
mid-infrared
emissivity
decreases
an
increase
coating
When
at
loads
5
1.2
mg/cm2,
respectively,
have
very
low
3–5
8–14
μm
bands,
surface
temperature
can
be
reduced
53.1
°C
when
placed
on
heater
100
(surface
radiation
95
°C).
also
demonstrates
excellent
heating
capabilities;
4
V
power,
91.7
may
reached
30
s.
In
addition,
customized
exhibit
strong
performance.
By
folding
cloth,
interference
shield
effect
increased
to
64.3
dB.
With
their
thermal
management,
performance,
found
extensive
use
intelligent
wearables
military
applications.
ACS Nano,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 9, 2025
Multifunctional
materials
are
accelerating
the
development
of
soft
electronics
with
integrated
capabilities
including
wearable
physical
sensing,
efficient
thermal
management,
and
high-performance
electromagnetic
interference
shielding.
With
outstanding
mechanical,
thermal,
electrical
properties,
nanocarbon
offer
ample
opportunities
for
designing
multifunctional
devices
broad
applications.
Surface
interfacial
engineering
have
emerged
as
an
effective
approach
to
modulate
interconnected
structures,
which
may
tunable
synergistic
effects
precise
control
over
transport,
properties.
This
review
presents
a
comprehensive
summary
recent
advances
empowering
via
surface
in
context
techniques,
structural
evolution,
their
wide
Special
emphasis
is
placed
on
identifying
critical
correlations
between
structures
across
nanoscales,
microscales,
macroscales
The
challenges
currently
faced
by
examined,
potential
applications
also
revealed.
We
anticipate
that
this
will
promote
further
trigger
ideas
design
multidisciplinary
