The
ocean
wave
energy
is
considered
one
of
the
most
promising
forms
marine
blue
due
to
its
vast
reserves
and
high
density.
However,
traditional
electromagnetic
power
generation
technology
suffers
from
drawbacks
such
as
maintenance
costs,
heavy
structures,
low
conversion
efficiency,
which
restricts
application
range.
triboelectric
nanogenerator
(TENG)
uses
Maxwell
displacement
current
internal
driving
force,
can
efficiently
convert
irregular,
low-frequency,
dispersed
mechanical
into
electrical
energy.
generator
utilizes
coupling
effect
between
contact
electrification
electrostatic
induction,
showing
significant
advantages
light
weight,
cost
effectiveness,
easy
expansion.
Compared
with
harvesting
techniques
generators,
nanogenerators
exhibit
higher
efficiency
output
performance
in
low-frequency
Thus,
based
on
has
emerged
a
highly
potential
alternative
this
field.
Herein,
recent
progress
summarize
latest
advancements
TENG-based
capture
reviewed.
More
importantly,
actual
TENG
different
structures
discussed,
providing
an
overview
research
status
field
for
relevant
researchers.
Nano-Micro Letters,
Год журнала:
2024,
Номер
17(1)
Опубликована: Сен. 27, 2024
Abstract
With
the
continuous
development
of
wearable
electronics,
wireless
sensor
networks
and
other
micro-electronic
devices,
there
is
an
increasingly
urgent
need
for
miniature,
flexible
efficient
nanopower
generation
technology.
Triboelectric
nanogenerator
(TENG)
technology
can
convert
small
mechanical
energy
into
electricity,
which
expected
to
address
this
problem.
As
core
component
TENG,
choice
electrode
materials
significantly
affects
its
performance.
Traditional
metal
often
suffer
from
problems
such
as
durability,
limits
further
application
TENG.
Graphene,
a
novel
material,
shows
excellent
prospects
in
TENG
owing
unique
structure
electrical
properties.
This
review
systematically
summarizes
recent
research
progress
TENGs
based
on
graphene
electrodes.
Various
precision
processing
methods
electrodes
are
introduced,
applications
electrode-based
various
scenarios
well
enhancement
performance
discussed.
In
addition,
future
also
prospectively
discussed,
aiming
promote
advancement
TENGs.
Nano-Micro Letters,
Год журнала:
2025,
Номер
17(1)
Опубликована: Янв. 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.
Journal of Materials Chemistry A,
Год журнала:
2024,
Номер
12(31), С. 19783 - 19805
Опубликована: Янв. 1, 2024
The
competition
between
electron
transfer
and
ion
at
the
solid–liquid
interface
is
summarized
performance
improvement
strategies
of
contact-electro-catalysis
under
natural
or
industrial
conditions
are
given.
