Advanced Electronic Materials,
Год журнала:
2021,
Номер
8(1)
Опубликована: Сен. 3, 2021
Abstract
With
the
advancement
of
nanotechnology
and
electroactive
materials,
conventional
textiles
have
transformed
into
a
versatile
wearable
electronic
platform
that
will
inevitably
escalate
development
next‐generation
flexible
electronics.
Integration
nanoscale
conductive
particles
such
as
polymers,
metals,
or
nanocarbons
different
structural
textile
design
has
simplified
way
personal
interactive
communications
portable
sensing
by
distributing
superior
stretchability
functionality
in
smart
device.
However,
for
real‐life
application,
it
is
crucial
to
recognize
functional
reliability
This
review
comprehensively
summarizes
recent
progress
(e‐textiles)
using
materials
architectures
numerous
applications.
The
first
section
highlights
used
e‐textiles
their
various
properties.
Various
polymers
from
carbon,
metal,
including
electromechanical
properties
wash
durability,
are
then
discussed.
Subsequently,
textile‐based
energy
harvesting
storage,
thermal
management,
sensing,
electrocardiography
(ECG),
electromagnetic
interference
shielding
presented.
Finally,
remaining
challenges
regarding
current
processing
strategies
pointed
out,
practical
fully
realize
e‐textile
systems
suggested.
Condensed Matter,
Год журнала:
2022,
Номер
7(1), С. 6 - 6
Опубликована: Янв. 6, 2022
For
hybrid
electric
vehicles,
supercapacitors
are
an
attractive
technology
which,
when
used
in
conjunction
with
the
batteries
as
a
system,
could
solve
shortcomings
of
battery.
Supercapacitors
would
allow
vehicles
to
achieve
high
efficiency
and
better
power
control.
possess
very
good
density.
Besides
this,
their
charge-discharge
cycling
stability
comparatively
reasonable
cost
make
them
incredible
energy-storing
device.
The
manufacturing
strategy
major
parts
like
electrodes,
current
collector,
binder,
separator,
electrolyte
define
performance
supercapacitor.
Among
these,
electrode
materials
play
important
role
it
comes
supercapacitors.
They
resolve
charge
storage
device
thus
decide
capacitance.
Porous
carbon,
conductive
polymers,
metal
hydroxide,
oxides,
which
some
usual
for
electrodes
supercapacitors,
have
limits
energy
density
stability.
Major
research
has
focused
on
design
stable,
highly
efficient
low
cost.
In
this
review,
most
recent
discussed.
challenges,
progress,
future
development
discussed
well.
This
study
clearly
shows
that
increased
considerably
over
years
made
promising
alternative
sector.
Abstract
Given
the
rise
in
popularity
of
wearable
electronics
that
are
able
to
deform
into
desirable
configurations
while
maintaining
electrochemical
functionality,
stretchable
and
flexible
(hybrid)
supercapacitors
(SCs)
have
become
increasingly
interest
as
innovative
energy
storage
devices.
Their
outstanding
power
density,
long
lifetime
with
low
capacitance
loss,
appropriate
particular
hybrid
cases
make
them
ideal
candidates
for
electronics.
The
aim
this
review
paper
is
provide
an
in‐depth
discussion
these
SCs
ranging
from
fabrication
electro‐mechanical
properties.
This
begins
a
short
overview
fundamentals
charge
mechanisms
different
types
multivalent
metal‐ion
SCs.
research
methods
leading
up
current
state
then
presented.
followed
by
presentation
challenges
associated
configurations.
Proposed
novel
strategies
maximize
elastic
properties
stretchable/flexible
or
quasi‐solid‐state
classified
pros
cons
each
shown.
advances
mechanical
expected
advancements
future
discussed
last
section.
