Small,
Journal Year:
2025,
Volume and Issue:
unknown
Published: May 19, 2025
Abstract
Supercapacitors
(SCs)
emerged
as
promising
energy
storage
devices
to
address
the
demands
of
modern
era.
The
limited
density
SCs
due
a
narrow
voltage
window
hinders
their
competitiveness.
electrodes
drive
mechanism
responsible
for
charge
storage.
However,
electrolytes
play
critical
role
in
shaping
key
parameters
that
directly
affect
operating
window,
performance,
and
cost
SCs.
This
work
highlights
current
research,
addressing
issues
solutions,
focusing
on
advancing
hybrid
aqueous/organic
widen
solvation
chemistry
mechanistic
studies
widening
SCs,
especially
with
water
primary
solvent
organic
additive
co‐solvent,
have
been
explored.
tailored
coordination
solvents
(water
co‐solvent)
electrolyte
ions
reduces
ion
size
availability
free
molecules
undesired
hydrogen/oxygen
evolution
reaction
(HER/OER),
thereby
challenges
finding
suitable
co‐solvent
maintaining
all
essential
properties
highlighted
discussed.
study
is
vital
developing
high‐quality
meet
high
practical
applications.
ChemPhysChem,
Journal Year:
2022,
Volume and Issue:
24(3)
Published: Oct. 10, 2022
Harnessing
new
materials
for
developing
high-energy
storage
devices
set
off
research
in
the
field
of
organic
supercapacitors.
Various
attractive
properties
like
high
energy
density,
lower
device
weight,
excellent
cycling
stability,
and
impressive
pseudocapacitive
nature
make
supercapacitors
suitable
candidates
high-end
applications.
This
review
highlights
overall
progress
future
Sustainable
production
depend
on
low
cost,
large
supercapacitor
packs
with
density.
Organic
pseudocapacitance,
lightweight
form
factor,
higher
potential
are
alternatives
to
other
devices.
There
many
recent
ongoing
works
that
focus
electrolytes
along
material
aspect
summarizes
current
status
chemistry
behind
mechanism
overcome
challenges
achieve
superior
performance
opportunities.
Energy Technology,
Journal Year:
2024,
Volume and Issue:
12(5)
Published: Feb. 19, 2024
Aiming
at
the
grid
security
problem
such
as
frequency,
voltage,
and
power
quality
fluctuation
caused
by
large‐scale
grid‐connected
intermittent
new
energy,
this
article
investigates
life
cycle
assessment
of
energy
storage
technologies
based
on
technical
characteristics
performance
indicators.
First,
system
under
dual‐carbon
target
is
reviewed,
which
compared
with
traditional
from
generation
side,
user
side.
Based
system,
mechanism
mechanical
storage,
electrochemical
chemical
electromagnetic
thermal
are
described.
Then,
existing
research
strategies,
a
comprehensive
carried
out
four
dimensions:
performance,
economic
cost,
safety
assessment,
environmental
impact.
Moreover,
suitable
scenarios
application
functions
various
side
analyzed
working
principle,
key
technologies,
advantages
disadvantages,
difficulties
technologies.
Finally,
combined
in
electricity
market,
profit
models
analyzed.
ACS Applied Engineering Materials,
Journal Year:
2024,
Volume and Issue:
2(3), P. 672 - 682
Published: March 8, 2024
For
the
first
time,
manganese
tungstate
(MnWO4)
electrodes
are
successfully
synthesized
by
successive
ionic
layer
adsorption
and
reaction
(SILAR)
method.
This
study
is
mainly
focused
on
hierarchical
MnWO4
microflowers
(MFs)
for
electrochemical
supercapacitor
application.
The
crystalline
structure,
morphology,
presence
of
functional
groups,
stretching
bending
vibration,
availability
chemical
states
present
in
MFs
investigated
using
X-ray
diffraction
(XRD),
scanning
electron
microscopy
(SEM),
Fourier
transform
infrared,
Raman,
photoelectron
spectroscopy,
respectively.
In
addition,
resultant
materials
undergo
analysis
a
three-electrode
system.
As
result,
MnW-50
electrode
reveals
maximum
specific
capacitance
(Cs)
capacity
(Csp)
698
F/g
87
mAh/g
at
5
mA/cm2
with
moderate
energy
density
(ED)
power
(PD)
19
Wh/kg
700
W/kg,
Furthermore,
aqueous
hybrid
device
fabricated
as
cathode
reduced
graphene
oxide
(rGO)
an
anode
material,
which
performance
Cs
Csp
206
mV/s
185
70
sufficient
ED,
PD
45
1960
W/kg
mA/cm2,
aforementioned
results
indicate
benefits
improved
efficiency
cathodes
supercapacitors.
Batteries & Supercaps,
Journal Year:
2023,
Volume and Issue:
6(11)
Published: Sept. 1, 2023
Abstract
Due
to
their
prominent
power
density,
supercapacitors
carve
out
a
niche
among
all
the
energy
storage
systems.
However,
it
is
also
well
known
that
density
of
takes
no
advantage
over
lithium‐ion
batteries,
current
star
device.
Therefore,
substantial
efforts
have
been
paid
improving
not
at
expense
its
density.
To
develop
electrode
with
high
capacitance
direct
and
efficient
way
increase
capability
supercapacitors.
Organics
whose
molecular
structure
can
be
diversely
designed
achieve
pseudocapacitance
arising
from
redox‐active
units
in
backbone
are
good
candidates
as
materials
for
Herein,
this
review
summarizes
recent
progress
organic
pseudocapacitive
storge
mechanisms
based
on
different
functional
groups.
From
aspects
preparation
approaches,
design
resultant
electrochemical
performances,
focus
probe
relationship
between
provide
some
insights
further
development
supercapacitor
electrodes.
Advanced Materials,
Journal Year:
2024,
Volume and Issue:
36(33)
Published: June 8, 2024
Here,
an
ionic
polymer
of
intrinsic
microporosity
(PIM)
as
a
high-functioning
supercapacitor
electrode
without
the
need
for
conductive
additives
or
binders
is
reported.
The
performance
this
material
directly
related
to
its
large
accessible
surface
area.
By
comparing
electrochemical
between
porous
viologen
PIM
and
nonporous
polymer,
it
revealed
that
high
energy
power
density
are
both
due
ability
ions
rapidly
access
PIM.
In
0.1
m
H
