Insulating electromagnetic-shielding silicone compound enables direct potting electronics
Science,
Год журнала:
2024,
Номер
385(6714), С. 1205 - 1210
Опубликована: Сен. 12, 2024
Traditional
electromagnetic
interference–shielding
materials
are
predominantly
electrically
conductive,
posing
short-circuit
risks
when
applied
in
highly
integrated
electronics.
To
overcome
this
dilemma,
we
propose
a
microcapacitor-structure
model
comprising
conductive
fillers
as
polar
plates
and
intermediate
polymer
dielectric
layer
to
develop
insulating
composites.
The
electron
oscillation
dipole
polarization
layers
contribute
the
reflection
absorption
of
waves.
Guided
by
this,
synergistic
nonpercolation
densification
enhancement
enable
our
composite
combine
high
resistivity,
shielding
performance,
thermal
conductivity.
Its
feature
allows
for
direct
potting
into
crevices
among
assembled
components
address
compatibility
heat-accumulation
issues.
Язык: Английский
Fluorine‐free synthesis of ultra‐thin, high aspect ratio Ti3C2Tx MXene nanosheets for high‐efficiency ultraviolet‐shielding applications
Polymer Engineering and Science,
Год журнала:
2025,
Номер
unknown
Опубликована: Март 2, 2025
Abstract
MXenes,
two‐dimensional
transition
metal
carbides
and
nitrides,
show
great
potential
in
various
applications.
However,
traditional
synthesis
methods
often
involve
toxic
fluorine‐containing
etchants,
limiting
large‐scale
production.
This
study
introduces
a
novel,
environmentally
friendly
approach
for
synthesizing
Ti
3
C
2
T
x
MXene
nanosheets
using
stone
grinding‐assisted
exfoliation
mild
alkaline
etching
at
80°C.
The
synthesized
exhibited
high
aspect
ratios
with
transverse
dimensions
mostly
on
the
micrometer
scale
thickness
of
approximately
nm,
corresponding
to
one
two
layers
.
MXene/polyvinyl
alcohol
(PVA)
composite
membranes
were
fabricated
demonstrate
practical
membrane
containing
1
wt%
achieved
99.9%
UV
shielding
rate
while
maintaining
67%
visible
light
transmittance.
Furthermore,
it
significantly
enhanced
PLA's
resistance,
protected
samples
retaining
98.1%
tensile
strength
after
48
hours
exposure,
compared
47.8%
unprotected
PLA.
fluorine‐free
method
addresses
environmental
concerns
enables
production
advanced
protection
Highlights
is
made
via
grinding
etching.
are
produced
micron
range
1–2
thick.
green,
MXene.
MXene/PVA
films
99.99%
coating
improves
keeping
strength.
Язык: Английский
Ultrahigh Thermal Conductivity of Epoxy/Ag Flakes/MXene@Ag Composites Achieved by In Situ Sintering of Silver Nanoparticles
Langmuir,
Год журнала:
2024,
Номер
40(23), С. 12059 - 12069
Опубликована: Май 31, 2024
The
growing
use
of
high-power
and
integrated
electronic
devices
has
created
a
need
for
thermal
conductive
adhesives
(TCAs)
with
high
conductivity
(TC)
to
manage
heat
dissipation
at
the
interface.
However,
TCAs
are
often
limited
by
contact
resistance
interface
between
materials.
In
this
study,
we
synthesized
MXene@Ag
composites
through
direct
in
situ
reduction
process.
Ag
nanoparticles
(Ag
NPs)
generated
MXene
interlayer
surface
formed
effective
thermally
pathways
flakes
within
an
epoxy
resin
matrix.
Various
characterization
analyses
revealed
that
adding
concentration
3
wt
%
resulted
remarkable
TC
40.80
W/(m·K).
This
value
is
8.77
times
higher
than
achieved
7.9
filler
alone.
improved
attributed
sintering
reduced
NPs
during
curing
process,
which
connection
(a
highly
material)
flakes,
thereby
reducing
resistance.
significantly
enhanced
materials
(TIMs).
study
presents
novel
approach
developing
exceptionally
TC,
opening
new
possibilities
design
fabrication
advanced
management
systems.
Язык: Английский
Understanding Thermal Conductivity of Polymer Composites with Hybrid Fillers: A Molecular Dynamics Simulation Study
ACS Applied Polymer Materials,
Год журнала:
2025,
Номер
unknown
Опубликована: Янв. 8, 2025
Efficient
thermal
management
is
very
critical
for
the
performance
and
longevity
of
modern
electronic
devices,
making
development
high
conductivity
materials
essential.
In
this
work,
effect
nanoparticle/nanosheet
hybrid
fillers
on
polymer
nanocomposites
(PNCs)
was
explored
by
using
coarse-grained
molecular
dynamics
(CGMD)
simulation.
First,
effects
nanosphere
composites
were
studied
in
terms
filling
fraction,
size,
physical
interfacial
interaction.
The
results
show
that
maximum
probability
achieved
with
a
smaller
particle
larger
stronger
matrix–filler
addition,
we
further
examined
hybrid-filled
composites,
dispersion
state
fillers,
contribution
two
filler
components
to
formation
network.
Compared
PNCs
single
type
filler,
filled
nanoparticles/nanosheets
exhibit
superior
conduction
lower
percolation
threshold,
which
attributed
fact
addition
nanoparticles
promotes
sheets
networks.
By
controlling
filler–matrix
interaction
nanoparticles,
can
also
be
modified.
conclusion,
study
deepens
our
understanding
how
form
network
between
sheets,
providing
theoretical
guidance
more
efficient
polymeric
materials.
Язык: Английский
A model for effective conductivity of polymer nanocomposites containing MXene nanosheets
Polymer Composites,
Год журнала:
2025,
Номер
unknown
Опубликована: Фев. 2, 2025
Abstract
This
paper
introduces
a
groundbreaking
model
to
evaluate
the
conductivity
of
nanocomposites
comprising
MXene
nanosheets.
The
simulates
effective
considering
dimensions,
volume
fraction,
interphase
thickness,
percolation
threshold,
contact
distance,
and
tunneling
resistance.
model's
predictions
align
well
with
empirical
results
obtained
various
laboratory
samples.
scrutiny
elements
impacting
is
affirmed,
given
assumption
resistance
operation
MXene/interphase
network.
Slender
nanosheets
expansive
contacts
lead
an
elevated
level
conductivity.
Moreover,
shows
direct
correlation
loading,
while
higher
onset
produces
poorer
Based
on
outputs,
insulative
nanocomposite
identified
via
thinnest
(
<
1
nm),
thickest
t
>
4
smallest
fraction
0.01),
lowest
percentage
networked
0.05).
Contrariwise,
most
remarkable
as
25.6
S/m
attained
by
=
nm).
In
addition,
narrowest
tunnels
(tunneling
distance
nm)
yield
uppermost
6.2
in
system.
Highlights
study
proposes
for
polymer
nanocomposites.
size,
depth,
are
considered.
agree
experimental
data
several
A
bigger
area
thicker
interphase.
(1
produce
S/m.
Язык: Английский