Applied Mathematics and Nonlinear Sciences,
Год журнала:
2025,
Номер
10(1)
Опубликована: Янв. 1, 2025
Abstract
This
paper
takes
the
light
storage
and
charging
integrated
microgrid
system
as
research
object,
aiming
to
explore
how
maximize
economy
stability
of
system.
firstly
analyzes
working
characteristics
light,
system,
operating
photovoltaic,
energy
electric
vehicle
in
establishes
a
reasonable
mathematical
model,
based
on
which
this
carries
out
multi-objective
optimization
operation
proposes
an
optimal
strategy
considering
load
peak
valley
transfer,
basis,
model
with
objectives
minimizing
difference
economic
cost.
The
example
shows
that
peak-to-valley
is
reduced
2.394
under
paper,
proves
effectiveness
paper’s
method
optical
charging,
can
effectively
reduce
loads
while
guaranteeing
economy.
not
only
meet
user’s
power
quality
requirements,
but
also
costs,
optimize
distribution
network,
provide
reference
for
current
investment
construction
plant.
Chemical Reviews,
Год журнала:
2023,
Номер
123(15), С. 9327 - 9355
Опубликована: Июнь 9, 2023
In
response
to
the
current
trend
of
miniaturization
electronic
devices
and
sensors,
complementary
coupling
high-efficiency
energy
conversion
low-loss
storage
technologies
has
given
rise
development
photocapacitors
(PCs),
which
combine
in
a
single
device.
Photovoltaic
systems
integrated
with
supercapacitors
offer
unique
light
capabilities,
resulting
improved
overall
efficiency
over
past
decade.
Consequently,
researchers
have
explored
wide
range
device
combinations,
materials,
characterization
techniques.
This
review
provides
comprehensive
overview
photocapacitors,
including
their
configurations,
operating
mechanisms,
manufacturing
techniques,
focus
on
emerging
applications
small
wireless
devices,
Internet
Things
(IoT),
Everything
(IoE).
Furthermore,
we
highlight
importance
cutting-edge
materials
such
as
metal–organic
frameworks
(MOFs)
organic
for
supercapacitors,
well
novel
photovoltaics,
advancing
PCs
carbon-free,
sustainable
society.
We
also
evaluate
potential
development,
prospects,
application
scenarios
this
area
research.
Angewandte Chemie International Edition,
Год журнала:
2024,
Номер
63(15)
Опубликована: Фев. 9, 2024
Photo-assisted
ion
batteries
utilize
light
to
boost
capacity
but
face
cycling
instability
due
complex
charge/ion
transfer
under
illumination.
This
study
identified
photo-induced
proton
(photo-induced
PT)
as
a
significant
process
in
photo-(dis)charging
of
widely-used
V
Angewandte Chemie International Edition,
Год журнала:
2024,
Номер
63(22)
Опубликована: Март 15, 2024
Integrating
solar
energy
into
rechargeable
battery
systems
represents
a
significant
advancement
towards
sustainable
storage
solutions.
Herein,
we
propose
win-win
solution
to
reduce
the
shuttle
effect
of
polysulfide
and
improve
photocorrosion
stability
CdS,
thereby
enhancing
conversion
efficiency
rGO/CdS-based
photorechargeable
integrated
lithium-sulfur
batteries
(PRLSBs).
Experimental
results
show
that
CdS
can
effectively
anchor
under
sunlight
irradiation
for
20
minutes.
Under
high
current
density
(1
C),
discharge-specific
capacity
PRLSBs
increased
971.30
mAh
g
Advanced Energy Materials,
Год журнала:
2023,
Номер
13(38)
Опубликована: Авг. 18, 2023
Abstract
Various
energy
storage
devices
are
highly
demanded
by
o
ur
modern
society.
The
use
of
solar
energy,
an
important
green
source,
is
extremely
attractive
for
future
storage.
Recently,
photo‐assisted
have
rapidly
developed
as
they
efficiently
convert
and
store
while
their
configurations
simple
external
decline
much
reduced.
Light‐assisted
thus
provide
a
potential
way
to
utilize
sunlight
at
large
scale
that
both
affordable
limitless.
Considering
rapid
development
emerging
problems
devices,
this
review
starts
with
the
fundamentals
batteries
supercapacitors
follows
state‐of‐the‐art
where
device
components,
working
principles,
types,
practical
applications
explained.
After
detailed
demonstration
some
examples,
bottleneck
such
light‐assisted
discussed
prospects
rechargeable
further
outlined.
Abstract
The
zinc
ion
battery
(ZIB)
as
a
promising
energy
storage
device
has
attracted
great
attention
due
to
its
high
safety,
low
cost,
capacity,
and
the
integrated
smart
functions.
Herein,
working
principles
of
responses,
self‐charging,
electrochromic
well
integration
are
summarized.
Thus,
this
review
enables
inspire
researchers
design
novel
functional
devices
for
extending
their
application
prospects.
In
addition,
critical
factors
associated
with
performance
ZIBs
comprehensively
collected
discussed
from
viewpoint
intellectualized
design.
A
profound
understanding
correlating
philosophy
in
cathode
materials
electrolytes
electrode
interface
is
provided.
To
address
current
challenging
issues
development
ZIB
systems,
wide
variety
emerging
strategies
regarding
system
finally
prospected.
ACS Energy Letters,
Год журнала:
2023,
Номер
8(8), С. 3343 - 3355
Опубликована: Июль 29, 2023
Solar
batteries
present
an
emerging
class
of
devices
which
enable
simultaneous
energy
conversion
and
storage
in
one
single
device.
This
high
level
integration
enables
new
concepts
ranging
from
short-term
solar
buffers
to
light-enhanced
batteries,
thus
opening
up
exciting
vistas
for
decentralized
storage.
The
dynamics
this
field
has
engendered
a
number
different
battery
designs,
significantly
differ
not
only
the
charge
mechanism
but
also
terms
device
design.
Herein,
we
first
discuss
fundamental
electrochemical
signature
these
devices,
revisit
reported
concepts,
categorize
them
set
five
designs
by
carving
out
key
similarities
how
electric
light
charging
fluxes
interact,
classifying
either
as
efficient
or
power
devices.
We
then
rediscuss
context
our
classification
scheme
propose
design
guidelines
batteries.
Abstract
Great
changes
have
occurred
in
the
energy
storage
area
recent
years
as
a
result
of
rapid
economic
expansion.
People
conducted
substantial
research
on
sustainable
conversion
and
systems
order
to
mitigate
looming
crisis.
As
result,
developing
materials
is
critical.
Materials
with
an
open
frame
structure
are
known
Prussian
blue
analogs
(PBAs).
Anode
for
oxides,
sulfides,
selenides,
phosphides,
borides,
carbides
been
extensively
explored
anode
field
years.
The
advantages
disadvantages
carbides,
other
elements,
well
experimental
methodologies
electrochemical
properties,
discussed
this
work.
findings
reveal
that
employing
electrode
overcome
problems
low
conductivity,
excessive
material
loss,
specific
volume
ineffective.
Therefore,
review
intends
address
issues
diverse
by
combining
multiple
technologies
manufacture
battery
cost,
large
capacity,
extended
service
life.
Photo-rechargeable
(solar)
battery
can
be
considered
as
an
energy
harvesting
cum
storage
system,
where
it
charge
the
conventional
metal-ion
using
light
instead
of
electricity,
without
having
other
parasitic
reactions.
Here
a
two-electrode
lithium-ion
solar
with
multifaceted
TiS2
-TiO2
hybrid
sheets
cathode.
The
choice
electrode
ensures
formation
type
II
semiconductor
heterostructure
while
lateral
geometry
high
mass/charge
transfer
and
interactions
electrode.
has
higher
lithium
binding
(1.6
eV)
than
TiO2
(1.03
eV),
ensuring
possibilities
amount
Li-ion
insertion
to
hence
maximum
recovery
photocharging,
further
confirmed
by
experiments.
Apart
from
demonstration
solid-state
batteries,
charging
full
cell
indicates
intercalated
graphite
compounds,
any
reactions
at
electrolyte
or
electrode-electrolyte
interfaces.
Possible
mechanisms
proposed
here
for
discharging
processes
based
on
experimental
theoretical
results,
indicate
potential
such
systems
in
forthcoming
era
renewable
energies.
