Advanced Energy Materials,
Journal Year:
2025,
Volume and Issue:
unknown
Published: March 10, 2025
Abstract
Although
the
damped
triboelectric
nanogenerator
with
an
assisted
pendulum
and
spring
structure
has
significant
advantages
in
harvesting
water‐wave
energy,
these
designs
have
reduced
space
utilization
of
devices.
Meanwhile,
indispensable
high‐weight
power
take‐off
device
related
researches
greatly
also
reduces
anti‐overturning
performance
device.
Here,
a
magnetic
suspension
hybrid
(MSDHN)
is
designed
for
energy
harvesting.
A
damping
system
high‐efficient
capture
developed
by
using
two
magnets
oriented
guide
rail.
design
coils
magnet
at
bottom
giving
entire
excellent
capability
while
sandwich
improves
electromagnetic
generator
output
higher
change
flux.
Furthermore,
development
nanofiber
film
high‐positive
optimization
significantly
enhance
nanogenerator.
Importantly,
relying
on
integrated
structural
design,
obtained
98.8%.
Finally,
thanks
to
high
utilization,
achieves
ultrahigh
density
628.9
W
m
−3
.
This
research
will
promote
large‐scale
application
energy.
Advanced Energy Materials,
Journal Year:
2023,
Volume and Issue:
13(19)
Published: March 31, 2023
Abstract
The
ocean,
as
one
of
the
most
important
areas
for
human
production
and
living,
plays
a
vital
role
in
transportation,
food
production,
energy
supply.
However,
it
is
greatly
desired
to
develop
relevant
advanced
technologies
achieve
efficient
safe
ocean
exploitation
utilization.
triboelectric
nanogenerator
(TENG),
which
can
transform
mechanical
motion
into
electric
harvesting
related
obtain
corresponding
characteristics
by
electronic
signal,
significant
choice
marine
exploitation.
According
application
field,
TENG
based
researches
be
divided
three
kinds
researching
directions,
contain
situ
harvesting,
self‐powered
monitoring,
electrochemical
technologies.
latest
representative
research
works,
are
on
technology
exploitation,
classified
detail
summarized
comprehensively
this
review.
More
importantly,
specific
prospects
discussed
promote
future
research.
Nano-Micro Letters,
Journal Year:
2025,
Volume and Issue:
17(1)
Published: Jan. 31, 2025
The
large-scale
use
of
ample
marine
energy
will
be
one
the
most
important
ways
for
human
to
achieve
sustainable
development
through
carbon
neutral
plans.
As
a
burgeoning
technological
method
electromechanical
conversion,
triboelectric
nanogenerator
(TENG)
has
significant
advantages
in
its
low
weight,
cost-effectiveness,
and
high
efficiency
low-frequency
range.
It
can
realize
efficient
economical
harvesting
blue
by
constructing
floating
TENG.
This
paper
firstly
introduces
power
transfer
process
structural
composition
TENG
detail.
In
addition,
latest
research
works
on
basic
design
are
systematically
reviewed
category.
Finally,
advanced
progress
take-off
types
engineering
study
with
comprehensively
generalized.
Importantly,
challenges
problems
faced
situ
electrochemical
application
summarized
corresponding
prospects
suggestions
proposed
subsequent
direction
look
forward
promoting
commercialization
this
field.
Small,
Journal Year:
2023,
Volume and Issue:
19(52)
Published: Aug. 30, 2023
Due
to
the
simple
installation
and
convenient
maintenance,
floating
water
wave
energy
harvesting
devices
have
significant
economic
advantages.
Mass
power
density
is
most
important
index
evaluate
advancement
of
devices.
Herein,
a
self-adaptive
rotating
triboelectric
nanogenerator
(SR-TENG)
with
compound
pendulum
functional
gear-set
provided
for
harvesting.
First,
structure
low
center
gravity
high
moment
inertia
obtained
by
geometric
design
mechanical
study.
Besides,
compared
previous
one-way
clutch,
SR-TENG
can
harvest
twice
kinetic
utilization
through
gear-set.
Importantly,
depending
on
design,
obtains
average
mass
45.18
mW
kg-1
under
frequency
driving
conditions,
which
about
10
times
reference
electromagnetic
generator
similar
size.
This
result
shows
that
has
advantage
in
small
These
findings
provide
an
example
ACS Applied Materials & Interfaces,
Journal Year:
2024,
Volume and Issue:
16(29), P. 38269 - 38282
Published: July 10, 2024
Triboelectric
nanogenerator
(TENG)
has
been
demonstrated
as
a
sustainable
energy
utilization
method
for
waste
mechanical
and
self-powered
system.
However,
the
charge
dissipation
of
frictional
layer
materials
in
humid
environment
severely
limits
their
stable
supply.
In
this
work,
new
is
reported
preparing
polymer
film
hydrophobic
negative
friction
material
by
solution
blending
poly(vinylidene
fluoride-
International Journal of Extreme Manufacturing,
Journal Year:
2024,
Volume and Issue:
6(6), P. 062003 - 062003
Published: July 20, 2024
Abstract
Triboelectric
nanogenerators
(TENGs)
stand
at
the
forefront
of
energy
harvesting
innovation,
transforming
mechanical
into
electrical
power
through
triboelectrification
and
electrostatic
induction.
This
groundbreaking
technology
addresses
urgent
need
for
sustainable
renewable
solutions,
opening
new
avenues
self-powered
systems.
Despite
their
potential,
TENGs
face
challenges
such
as
material
optimization
enhanced
triboelectric
effects,
scalability,
improving
conversion
efficiency
under
varied
conditions.
Durability
environmental
stability
also
pose
significant
hurdles,
necessitating
further
research
towards
more
resilient
Nature
inspired
TENG
designs
offer
promising
solutions
by
emulating
biological
processes
structures,
mechanisms
plants
textured
surfaces
animal
skins.
biomimetic
approach
has
led
to
notable
improvements
in
properties,
structural
designs,
overall
performance,
including
robustness.
The
exploration
bio-inspired
unlocked
possibilities
harvesting,
sensing,
wearable
electronics,
emphasizing
reduced
consumption
increased
innovative
design.
review
encapsulates
advancements
nature
TENGs,
highlighting
integration
principles
overcome
current
limitations.
By
focusing
on
augmented
biodegradability,
self-healing
capabilities,
pave
way
versatile
solutions.