The
adoption
of
a
self-powered
system
that
incorporates
energy-collecting
technology
may
make
it
simpler
to
power
electrical
devices
and
appliances.
When
comes
energy
storage
for
sensors
actuators,
the
writers
this
chapter
are
mainly
concerned
with
topic.
traditional
harvesting
methods
will
be
addressed
first,
followed
by
portable
wearable
built-in
sensing,
which
explored
after
that.
usage
systems
in
actuation
tasks,
as
well
their
development
towards
intelligent
functions
via
use
data
processing
artificial
intelligence,
session.
Throughout
chapter,
various
possibilities
shown.
Nature-inspired
hierarchical
designs
have
recently
piqued
interest
materials
science
community,
these
now
recognized
viable
high-performance
sustainable
can
used
electronic
such
smart
clothing.
highly
dynamic
interfacial
interaction
between
two
has
opened
up
new
avenues
creation
multifunctional
sensing
materials,
among
other
things.
synergistic
contacts
nature-inspired
assemblies
managed
properly,
is
possible
achieve
outstanding
characteristics
high
sensitivity,
density,
coulombic
efficiency,
ultra-long
cycling
stability
durability,
most
recent
achievements
sophisticated
also
focus
on
role
interactions
enhancing
substances
being
discussed.
Micromachines,
Journal Year:
2023,
Volume and Issue:
14(6), P. 1273 - 1273
Published: June 20, 2023
Due
to
its
superior
advantages
in
terms
of
electronegativity,
metallic
conductivity,
mechanical
flexibility,
customizable
surface
chemistry,
etc.,
2D
MXenes
for
nanogenerators
have
demonstrated
significant
progress.
In
order
push
scientific
design
strategies
the
practical
application
from
viewpoints
basic
aspect
and
recent
advancements,
this
systematic
review
covers
most
developments
first
section.
second
section,
importance
renewable
energy
an
introduction
nanogenerators,
major
classifications,
their
working
principles
are
discussed.
At
end
various
materials
used
harvesting
frequent
combos
MXene
with
other
active
described
detail
together
essential
framework
nanogenerators.
third,
fourth,
fifth
sections,
synthesis
along
properties,
nanocomposites
polymeric
discussed
progress
challenges
use
nanogenerator
applications.
sixth
a
thorough
discussion
internal
improvement
mechanisms
composite
3D
printing
technologies
presented.
Finally,
we
summarize
key
points
throughout
discuss
some
thoughts
on
potential
approaches
nanocomposite
based
that
could
be
better
performance.
Sensors,
Journal Year:
2023,
Volume and Issue:
23(6), P. 3042 - 3042
Published: March 11, 2023
Piezoelectric
transducers
have
numerous
applications
in
a
wide
range
of
sensing
and
actuation
applications.
Such
variety
has
resulted
continuous
research
into
the
design
development
these
transducers,
including
but
not
limited
to
their
geometry,
material
configuration.
Among
these,
cylindrical-shaped
piezoelectric
PZT
with
superior
features
are
suitable
for
various
sensor
or
actuator
However,
despite
strong
potential,
they
been
thoroughly
investigated
fully
established.
The
aim
this
paper
is
shed
light
on
cylindrical
configurations.
Based
latest
literature,
different
configurations
such
as
stepped-thickness
potential
application
areas
will
be
elaborated
propose
future
trends
introducing
new
that
meet
requirements
biomedical
applications,
food
industry,
well
other
industrial
fields.
Energies,
Journal Year:
2023,
Volume and Issue:
16(8), P. 3348 - 3348
Published: April 10, 2023
The
field
of
energy
harvesting
is
expanding
to
power
various
devices,
including
electric
vehicles,
with
derived
from
their
surrounding
environments.
unique
mechanical
and
electrical
qualities
composite
materials
make
them
ideal
for
applications,
they
have
shown
tremendous
promise
in
this
area.
Yet
additional
studies
are
needed
fully
grasp
the
vehicles.
This
article
reviews
used
discussing
characteristics,
conductivity,
thermal
stability,
cost-effectiveness.
As
a
bonus,
it
delves
into
using
composites
piezoelectric,
electromagnetic,
thermoelectric
harvesters.
high
strength-to-weight
ratio
provided
by
major
benefit
harvesting.
Especially
important
where
saving
weight
means
money
at
pump
driving
farther
between
charges,
quality
boon
field.
Many
possible
uses
systems
discussed
article.
These
include
polymer-based
composites,
metal-based
bio-waste-based
hybrid
cement-based
composites.
In
addition
describing
promising
applications
obstacles
that
must
be
overcome
before
technology
can
reach
its
full
potential.
Energy
devices
could
more
effective
reliable
if
were
cheaper
less
prone
damage.
Further
study
also
required
determine
durability
dependability
use
However,
show
E.V.s.
development
potential
realized.
discusses
significant
challenges
future
research
It
thoroughly
evaluates
latest
advances
trends
The
adoption
of
a
self-powered
system
that
incorporates
energy-collecting
technology
may
make
it
simpler
to
power
electrical
devices
and
appliances.
When
comes
energy
storage
for
sensors
actuators,
the
writers
this
chapter
are
mainly
concerned
with
topic.
traditional
harvesting
methods
will
be
addressed
first,
followed
by
portable
wearable
built-in
sensing,
which
explored
after
that.
usage
systems
in
actuation
tasks,
as
well
their
development
towards
intelligent
functions
via
use
data
processing
artificial
intelligence,
session.
Throughout
chapter,
various
possibilities
shown.
Nature-inspired
hierarchical
designs
have
recently
piqued
interest
materials
science
community,
these
now
recognized
viable
high-performance
sustainable
can
used
electronic
such
smart
clothing.
highly
dynamic
interfacial
interaction
between
two
has
opened
up
new
avenues
creation
multifunctional
sensing
materials,
among
other
things.
synergistic
contacts
nature-inspired
assemblies
managed
properly,
is
possible
achieve
outstanding
characteristics
high
sensitivity,
density,
coulombic
efficiency,
ultra-long
cycling
stability
durability,
most
recent
achievements
sophisticated
also
focus
on
role
interactions
enhancing
substances
being
discussed.
