Reduced
graphene
oxide
(rGO)
with
diverse,
layered
structures
and
unique
electronic
characteristics
was
restricted
in
microwave
wave
absorption
owing
to
the
high
dielectric
easy
agglomeration
properties.
In
situ,
polymerization
method
is
adopted
prepare
rGO@PANI
codoped
Mn2O3
CoFe2O4
composites
as
an
efficient
absorber.
The
resultant
material
thoroughly
characterized
for
phase
morphological
analysis
magnetic
parameters,
which
revealed
that
particles
dispersed
across
composite.
Our
finding
shows
at
35
wt
%
loading,
sample
PGF
1
EAB
of
5.07
GHz
a
maximum
reflection
loss
(RLmax)
−22.79
dB
2
mm
thickness;
2,
achieved
RLmax
−48.44
2.3
thickness
3.6
EAB,
while
3
exhibits
2.64
−47.03
7.28
3.4
mm.
notable
differences
conduction
electrons
structure
between
decorated
outer
layers
significantly
enhance
interfacial
polarization.
By
creating
quicker
electron
transport
routes,
3D
hierarchical
network
topology
further
improves
outcomes.
well-thought-out
planning
cooperative
action
sheets
are
intimately
connected
polarization,
results
incredibly
lightweight
thin
suitable
field
RADAR
absorption.
Remarkably,
40
loading
microwaves
entire
X
Ku
bands
only
2.4
covers
92.5%
whole
frequency
region
(2–18
GHz)
up
6
