Polymer-Plastics Technology and Materials,
Journal Year:
2024,
Volume and Issue:
unknown, P. 1 - 39
Published: Dec. 15, 2024
Metal–organic
framework
(MOF)
has
been
reported
as
unrivaled
inorganic–organic
three-dimensional
hybrid
nanoparticles
with
high
specific
surface
area
and
valuable
structural,
microstructural,
physical
attributes.
This
cutting
edge
overview
systematically
outlines
the
scientific
impact
of
MOF
inclusions
in
polymeric
matrices
enfolding
fundamentals
nanoparticles,
subsequent
nanocomposite
categories,
probable
potential
multi-functional
polymer/MOF
systems.
Consequently,
research
engrossed
development
high-performance
thermosetting/MOF
(epoxies,
polyurethanes,
unsaturated
polyester,
etc.),
thermoplastic/MOF
(polystyrene,
styrenic
block
copolymers,
poly(methyl
methacrylate)),
conjugated
(polyaniline,
polypyrrole,
polythiophene
derivatives)
nanocomposites
pristine
modified
entities.
Successively,
structural
multiplicity
reinforced
brought
about
significant
revolts
toward
energy
devices
(batteries,
supercapacitors,
fuel
cells),
gas
capturing,
water
purification,
biomedical
(tissue
engineering,
bioimaging)
solicitations.
Despite
success
so
far,
forthcoming
seemed
demanded
all
advanced
zones
through
developing
new
design
combinations
well
overcoming
processing
or
commercial-scale
production
challenges.
Advanced Functional Materials,
Journal Year:
2025,
Volume and Issue:
unknown
Published: March 5, 2025
Abstract
Electronic
devices
are
becoming
portable,
miniaturized,
and
high
performance,
more
widely
used
in
emerging
complex
fields.
Electromagnetic
functional
materials
with
multiple
functions
that
can
be
applied
to
scenarios
urgently
need
developed.
This
research
assembled
a
multifunctional
magnetic
heterodimensional
structure
through
interface
defect
engineering,
conceived
an
innovative
hybrid
energy
storage
device
antenna.
The
exhibits
excellent
microwave
absorption,
electromagnetic
interference
(EMI)
shielding
properties.
minimum
reflection
loss
is
−57.06
dB
at
6.16
GHz,
the
optimal
EMI
effectiveness
74.08
18
GHz.
At
current
densities
of
0.5
3
A
g
−1
,
discharge/charge
specific
capacities
remain
836.64/820.48
401.4/401.7
mAh
after
300
500
cycles,
respectively.
Hybrid
convert
into
electrical
for
storage.
antenna
shows
harvesting
characteristic
S,
C,
X,
Ku
multi‐bands.
|S
11
|
reach
−65.6
tuned
by
adjusting
dielectric
substrate
thickness.
work
will
furnish
new
prospects
design
development
scenarios.
Small,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Dec. 23, 2024
Carbon
nanotubes
(CNTs)
show
great
promise
for
microwave
absorption
(MA)
due
to
their
excellent
electrical
conductivity
and
lightweight
properties,
which
are
conferred
by
the
one
dimensional
hollow
tubular
structure.
However,
ambiguous
intrinsic
motivations
behind
formation
of
CNTs
intricate
growth
processes
have
resulted
in
a
lack
systematic
methodology
precisely
controlling
electromagnetic
properties.
Herein,
flexible
regulation
strategy
is
designed
develop,
with
core
focus
being
directional
carbon
atoms
differential
catalysis
metal
sources.
By
improving
kinetics,
material
achieves
effective
impedance
matching
attenuation,
displaying
notable
magnetoelectric
coupling
effects.
In
particular,
COMSOL
simulations
reveal
enhanced
dielectric
loss
contributing
efficient
energy
conversion.
Ultimately,
demonstrates
minimum
reflection
(RL
