Micromachines,
Journal Year:
2022,
Volume and Issue:
13(7), P. 1123 - 1123
Published: July 16, 2022
Graphene-based
nanomaterials
have
gained
a
lot
of
interest
over
the
last
years
in
flexible
electronics
due
to
their
exceptional
electrical,
mechanical,
and
optoelectronic
properties,
as
well
potential
surface
modification.
Their
flexibility
processability
make
them
suitable
for
electronic
devices
that
require
bending,
folding,
stretching,
which
cannot
be
fulfilled
by
conventional
electronics.
These
can
assembled
with
various
types
organic
materials,
including
polymers,
biomolecules,
generate
variety
nanocomposites
greater
stretchability
healability,
higher
stiffness,
electrical
conductivity,
thermal
stability
lighting
display
technologies.
This
article
summarizes
main
characteristics
synthesis
methods
graphene,
its
oxidized
form
graphene
oxide
(GO),
reduced
GO
derivative,
corresponding
polymeric
composites,
provides
brief
overview
about
some
recent
examples
these
applications,
electrodes
solar
cells
supercapacitors,
textiles,
transistors.
Advanced Materials,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 13, 2025
Abstract
Implantable
physiological
electrodes
provide
unprecedented
opportunities
for
real‐time
and
uninterrupted
monitoring
of
biological
signals.
Most
implantable
electronics
adopt
thin‐film
substrates
with
low
permeability
that
severely
hampers
tissue
metabolism,
impeding
their
long‐term
biocompatibility.
Recent
innovations
have
seen
the
advent
permeable
through
strategic
modification
liquid
metals
(LMs)
onto
porous
substrates.
However,
durability
these
is
limited
by
inherent
poor
wettability
LMs,
particularly
within
intricate
3D
skeleton
substrate.
Herein,
study
reports
a
spatial
tuning
strategy
solves
issue
LMs
substrates,
enabling
LM
high
The
demonstrates
use
as
neural
interface
to
realize
in
vivo
acquisition
electrocardiograph
electrocorticogram
signals
biocompatibility
signal‐to‐noise
ratio.
This
work
promising
direction
rational
design
durable
bioelectronics
Advanced Functional Materials,
Journal Year:
2022,
Volume and Issue:
32(48)
Published: Sept. 30, 2022
Abstract
On‐skin
electronic
systems
represent
a
burgeoning
technology
that
develops
wearable
devices
capable
of
adapting
to
the
dynamic
surfaces
human
body.
Present
film‐based
electronics
are
constrained
single‐layered
constructions
on
impermeable
substrates
severely
inhibit
their
wearing
comfort
and
multi‐functionality.
Herein,
thermal‐wet
comfortable
antibacterial
epidermal
electrode
is
hierarchically
designed
an
ultra‐stretchable
metafabric.
Via
layer‐by‐layer
assembly
trilayered
elastomeric
fibers
with
multi‐scale
sizes
varied
compositions,
porosity
wettability
asymmetries
established
across
nonwoven
fabric,
rendering
it
unidirectional
liquid
conduction
sweat
self‐pumping
performance.
The
successful
printing
stretchable
liquid‐metal
(EGaIn)
circuits
ZnO
NPs
anchored
microfibers
simultaneously
equips
metafabric
robust
capability,
low‐watt
heating
ability,
high‐fidelity
detectability
for
surface
electromyography
signals
various
physical
activities.
Moreover,
incorporation
thermochromic
microcapsules
in
outmost
also
enables
fabric
Joule
heater
visual
indicating
ability
via
reversible
color‐switching.
Thus,
this
engineered
holds
great
promise
daily
applicable
healthcare
sports
monitoring
electronics.
Micromachines,
Journal Year:
2022,
Volume and Issue:
13(7), P. 1123 - 1123
Published: July 16, 2022
Graphene-based
nanomaterials
have
gained
a
lot
of
interest
over
the
last
years
in
flexible
electronics
due
to
their
exceptional
electrical,
mechanical,
and
optoelectronic
properties,
as
well
potential
surface
modification.
Their
flexibility
processability
make
them
suitable
for
electronic
devices
that
require
bending,
folding,
stretching,
which
cannot
be
fulfilled
by
conventional
electronics.
These
can
assembled
with
various
types
organic
materials,
including
polymers,
biomolecules,
generate
variety
nanocomposites
greater
stretchability
healability,
higher
stiffness,
electrical
conductivity,
thermal
stability
lighting
display
technologies.
This
article
summarizes
main
characteristics
synthesis
methods
graphene,
its
oxidized
form
graphene
oxide
(GO),
reduced
GO
derivative,
corresponding
polymeric
composites,
provides
brief
overview
about
some
recent
examples
these
applications,
electrodes
solar
cells
supercapacitors,
textiles,
transistors.
