Gels,
Год журнала:
2024,
Номер
10(9), С. 553 - 553
Опубликована: Авг. 26, 2024
Despite
the
numerous
ongoing
research
studies
in
area
of
conducting
polymer-based
electrode
materials
for
supercapacitors,
implementation
has
been
inadequate
commercialization.
Further
understanding
is
required
design
and
synthesis
suitable
like
gels
as
supercapacitor
applications.
Among
polymers,
conductive
polymer
(CPGs)
have
generated
great
curiosity
their
use
owing
to
attractive
qualities
integrated
3D
porous
nanostructures,
softness
features,
very
good
conductivity,
greater
pseudo
capacitance,
environmental
friendliness.
In
this
review,
we
describe
current
progress
on
CPGs
applications
along
with
morphological
behaviors
thermal
properties.
We
clearly
explain
approaches
related
phenomena,
including
electrochemical
especially
potential
supercapacitors
based
these
materials.
Focus
also
given
recent
advances
CPG-based
electrodes
performances
CP-based
promising
composites
CNT,
graphene
oxides,
metal
oxides
discussed.
This
review
may
provide
an
extensive
reference
forthcoming
insights
into
large-scale
Coordination Chemistry Reviews,
Год журнала:
2024,
Номер
518, С. 216080 - 216080
Опубликована: Июль 14, 2024
Supercapacitors
have
garnered
significant
attention
in
recent
years
owing
to
their
exceptional
attributes,
such
as
high
power
density,
prolonged
cycle
stability,
and
the
capacity
fulfil
gap
between
traditional
capacitor
lithium-ion
battery.
Nanostructures
with
different
dimensions
(zero-dimensional,
0D;
one-dimensional,
1D;
two-dimensional,
2D;
three-dimensional,
3D)
were
employed
electrodes.
Such
material's
architecture
at
nanoscale
has
resulted
outstanding
electrochemical
characteristics,
contributing
development
of
high-performance
Supercapacitors.
Recent
advances
design
nanostructured
electrode
materials
for
highlighted
new
insight
into
structure
property
relationship
is
provided
this
authoritative
review.
Unique
classification
based
on
dimensionality,
namely,
0D,
1D,
2D
3D
was
emphasis
performance,
specific
capacitance,
energy
density
cyclability.
The
impact
nanostructures
key
Supercapacitor
properties
that
include
charge
transfer
kinetics,
diffusion,
rate
capability,
well
life
also
highlighted.
These
insights
serve
a
guidance
commercially
viable
applications
day
life,
instance,
drones
used
war-zones.
Advanced Science,
Год журнала:
2024,
Номер
unknown
Опубликована: Июль 9, 2024
Numerous
challenges,
like
the
uninterrupted
supply
of
electricity,
stable
and
reliable
power,
energy
storage
during
non-operational
hours,
arise
across
various
industries
due
to
absence
advanced
technologies.
With
continual
technological
advancements
in
portable
electronics,
green
energy,
transportation,
there
are
inherent
limitations
their
innovative
production.
Thus,
ongoing
research
is
focused
on
pursuing
sustainable
An
emerging
solution
lies
development
asymmetric
supercapacitors
(ASCs),
which
offer
potential
extend
operational
voltage
limit
beyond
thermodynamic
breakdown
range
electrolytes.
This
achieved
by
employing
two
distinct
electrode
materials,
presenting
an
effective
faced
ASCs.
The
current
review
concentrates
progression
working
materials
develop
authentic
pseudocapacitive
systems
(ESS).
Also,
evaluates
ability
exceed
constraints.
It
provides
insights
into
fundamental
mechanisms,
performance
evaluation
methodologies,
recent
material
strategies.
approaches
developing
high-performance
achieving
efficient
ASC
types.
delves
critical
aspects
for
enhancing
density
ASCs,
debates
prospects,
thereby
offering
a
comprehensive
understanding
design
principles
next-generation
ASCs
diverse
applications.
Abstract
Electrochemical
energy
systems
mark
a
pivotal
advancement
in
the
sector,
delivering
substantial
improvements
over
conventional
systems.
Yet,
major
challenge
remains
deficiency
storage
technology
to
effectively
retain
produced.
Amongst
these
are
batteries
and
supercapacitors,
renowned
for
their
versatility
efficiency,
which
depend
heavily
on
quality
of
electrode
materials.
Metal
oxide
composites,
particular,
have
emerged
as
highly
promising
due
synergistic
effects
that
significantly
enhance
functionality
efficiency
beyond
individual
components.
This
review
explores
application
metal
composites
electrodes
SCs,
focusing
various
material
perspectives
synthesis
methodologies,
including
exfoliation
hydrothermal/solvothermal
processes.
It
also
examines
how
methods
influence
device
performance.
Furthermore,
confronts
challenges
charts
future
directions
composite-based
systems,
critically
evaluating
aspects
such
scalability
synthesis,
cost-effectiveness,
environmental
sustainability,
integration
with
advanced
nanomaterials
electrolytes.
These
factors
crucial
advancing
next-generation
technologies,
striving
performance
while
upholding
sustainability
economic
viability.
Chemical Physics Impact,
Год журнала:
2024,
Номер
8, С. 100642 - 100642
Опубликована: Май 17, 2024
Medical
diagnostics
and,
to
a
lesser
extent,
pharmacy
is
two
of
the
most
prominent
applications
organic
conducting
polymers
(CPs).
Polymers
that
conduct
electricity,
such
as
polyaniline
(PANI),
polypyrrole
(PPY),
polythiophene
(PTh),
and
poly
(3,
4-ethylenedioxythiophene),
PEDOT,
are
frequently
employed
in
sensor
biosensor
design.
Some
unique
CPs
used
design
electrochemical
biosensors,
polypyrrole-based
functional
layers.
Sensors
based
on
polymer
composites
have
been
fabricated
which
can
detect
brain
hormones
like
Dopamine
(DA),
microorganism
bacteria,
cancerous
growth
apart
different
gases
environmental
parameters
humidity,
pressure
etc.
also
find
application
fabrication
biochips
molecular
electronics.
The
purpose
this
communication
discuss
manufacturing
these
medical
diagnosis
associated
applications.
