Micromachines,
Год журнала:
2024,
Номер
15(10), С. 1199 - 1199
Опубликована: Сен. 27, 2024
Marine
wave
energy
exhibits
significant
potential
as
a
renewable
resource
due
to
its
substantial
storage
capacity
and
high
density.
However,
conventional
power
generation
technologies
often
suffer
from
drawbacks
such
maintenance
costs,
cumbersome
structures,
suboptimal
conversion
efficiencies,
thereby
limiting
their
potential.
The
based
on
micro-energy
technology
have
emerged
promising
new
approaches
in
recent
years,
owing
inherent
advantages
of
cost-effectiveness,
simplistic
structure,
ease
manufacturing.
This
paper
provides
comprehensive
overview
the
current
research
status
harvesting
through
technologies,
including
detailed
descriptions
piezoelectric
nanogenerators,
electromagnetic
generators,
triboelectric
dielectric
elastomer
hydrovoltaic
hybrid
nanogenerators.
Finally,
we
provide
prevailing
issues
challenges
associated
with
these
while
also
offering
insights
into
future
development
trajectory
technology.
Advanced Materials,
Год журнала:
2025,
Номер
unknown
Опубликована: Янв. 21, 2025
Abstract
Triboelectric
nanogenerators
(TENGs)
have
gained
significant
attention
for
ability
to
convert
mechanical
energy
into
electrical
energy.
As
the
applications
of
TENG
devices
expand,
their
safety
and
reliability
becomes
priority,
particularly
where
there
is
risk
fire
or
spontaneous
combustion.
Flame‐retardant
materials
can
be
employed
address
these
concerns
without
compromising
performance
efficiency
TENGs.
The
primary
focus
this
review
on
flame‐retardant
materials,
including
polymers,
biomaterials,
liquid
aerogels,
carbon‐based
materials.
fundamental
properties
are
elucidated.
characteristics
each
material
type
described,
along
with
potential
boost
importance
flame
retardancy
in
advancing
technology
projected
from
its
usage
wearable
electronics,
self‐powered
sensors,
smart
textiles.
Current
challenges
such
as
compatibility,
fabrication
complexity,
environmental
addressed,
proposed
strategies
overcoming
them.
This
underscores
significance
strengthening
functionality
devices,
paving
way
widespread
adoption
across
various
industries.
Advanced Sustainable Systems,
Год журнала:
2024,
Номер
unknown
Опубликована: Июль 23, 2024
Abstract
Smart
textiles
represent
a
revolutionary
approach
to
wearable
technology
with
applications
ranging
from
healthcare
energy
harvesting.
This
review
paper
explores
the
importance
of
textile
technologies
and
highlights
their
potential
revolutionize
consumer
electronics.
Conventional
are
sometimes
heavy,
lack
comfort
flexibility,
but
smart
seamlessly
integrate
into
everyday
clothing,
improving
wearability
user
experience.
The
article
emphasizes
need
for
sustainable
sourcing
environmentally
friendly
production
methods,
as
well
responsible
manufacturing
disposal
practices.
Manufacturing
techniques
such
wet
spinning,
melt
electrostatic
weaving,
knitting,
printing
detailed
shed
light
on
role
in
incorporating
electronics
textiles.
Several
textile‐based
devices
being
explored,
including
biochemical
sensing,
temperature
monitoring,
harvesting,
storage,
displays.
Each
application
demonstrates
versatility
different
areas.
Despite
optimistic
progress,
challenges
remain,
efficiency
protecting
privacy
data
security.
analyzes
these
problems
suggests
future
improvements,
interdisciplinary
collaboration
find
new
solutions.
Finally,
an
overview
current
state
provides
this
technology.
It
serves
in‐depth
reference
academics
readers
interested
understanding
recent
advances
discoveries
technologies,
highlighting
rapidly
growing
industry.
ACS Applied Materials & Interfaces,
Год журнала:
2025,
Номер
unknown
Опубликована: Апрель 24, 2025
Piezo-pyroelectric
coupled
nanogenerators
(PPCNGs)
capable
of
collecting
vibration
energy
and
thermal
in
complex
environments
are
expected
to
provide
a
long-term
power
supply
for
multifunctional
electronic
devices.
However,
the
piezoceramics
as
core
PPCNGs
limited
their
generation
capabilities
due
low
conductivity
high
internal
resistance.
In
this
work,
it
is
proposed
construct
Na0.5Bi0.5TiO3-K0.5Bi0.5TiO3/Ag
(NBT-KBT/Ag)
composite
ceramics
with
suspended
network
structure
by
introducing
low-melting-point
metal
Ag
second
phase.
The
that
can
serve
transmission
path
effectively
reduces
scattering
phonons
carriers
ceramics,
improves
transport
efficiency,
achieves
dual
effects
increasing
reducing
resistance
ceramics.
And
output
density
PPCNG
composed
optimal
components
736.4
nW/cm3,
which
4.7
times
unoptimized
virgin
components.
Furthermore,
possesses
capability
recognize
object
information
through
pressure
temperature
sensing.
This
work
reinforces
characteristics
constructing
structure.
More
importantly,
simple
efficient
design
strategy
be
extended
material
modification
application
smart
