Heliyon,
Journal Year:
2024,
Volume and Issue:
10(21), P. e39118 - e39118
Published: Oct. 10, 2024
Dielectrics
are
essential
for
storing
and
controlling
electrical
energy
in
the
electronic
industries.
However,
their
production
from
non-renewable
sources
raises
environmental
concerns.
This
review
investigates
sustainable
polymer-based
dielectric
composites
made
agricultural
waste,
focusing
on
various
parameters
that
affect
characteristics.
These
offer
improved
properties
contribute
to
waste
reduction
sustainability.
Agricultural
including
crop
residues
by-products,
offers
a
promising,
source
of
composite
materials.
also
highlights
feasibility
using
waste-based
polymer
material
electronics
applications.
Dielectric
composite's
permittivity
is
influenced
by
carbon,
oxygen,
filler,
temperature,
cellulose,
morphological
changes.
Biodegradable
materials
like
which
have
good
fibre
carbon
content,
can
produce
constants,
making
them
suitable
antennas
microwave
absorbers.
In
conclusion,
underscores
importance
practices
development
valuable
role
advancing
environmentally
friendly
solutions.
iScience,
Journal Year:
2024,
Volume and Issue:
27(9), P. 110707 - 110707
Published: Aug. 12, 2024
Cardiovascular
diseases
(CVDs)
pose
a
significant
global
health
threat,
responsible
for
considerable
portion
of
worldwide
mortality.
Flexible
electronics
enable
continuous,
noninvasive,
real-time,
and
portable
monitoring,
providing
an
ideal
platform
personalized
healthcare.
Nevertheless,
challenges
persist
in
sustaining
stable
adherence
across
diverse
intricate
skin
environments,
hindering
further
advancement
toward
clinical
applications.
Strategies
such
as
structural
design
chemical
modification
can
significantly
enhance
the
environmental
adaptability
monitoring
performance
flexible
electronics.
This
review
delineates
processing
techniques,
including
modification,
to
mitigate
signal
interference
from
sebaceous
skin,
motion
artifacts
motion,
infection
risks
fragile
thereby
enabling
accurate
key
cardiovascular
indicators
complex
physiological
environments.
Moreover,
it
delves
into
potential
strategic
development
improvement
ensure
their
alignment
with
environment
requirements,
facilitating
transition
Heliyon,
Journal Year:
2024,
Volume and Issue:
10(21), P. e39118 - e39118
Published: Oct. 10, 2024
Dielectrics
are
essential
for
storing
and
controlling
electrical
energy
in
the
electronic
industries.
However,
their
production
from
non-renewable
sources
raises
environmental
concerns.
This
review
investigates
sustainable
polymer-based
dielectric
composites
made
agricultural
waste,
focusing
on
various
parameters
that
affect
characteristics.
These
offer
improved
properties
contribute
to
waste
reduction
sustainability.
Agricultural
including
crop
residues
by-products,
offers
a
promising,
source
of
composite
materials.
also
highlights
feasibility
using
waste-based
polymer
material
electronics
applications.
Dielectric
composite's
permittivity
is
influenced
by
carbon,
oxygen,
filler,
temperature,
cellulose,
morphological
changes.
Biodegradable
materials
like
which
have
good
fibre
carbon
content,
can
produce
constants,
making
them
suitable
antennas
microwave
absorbers.
In
conclusion,
underscores
importance
practices
development
valuable
role
advancing
environmentally
friendly
solutions.
