Chemical Reviews,
Journal Year:
2022,
Volume and Issue:
123(2), P. 613 - 662
Published: Aug. 17, 2022
The
development
of
fiber
materials
has
accompanied
the
evolution
human
civilization
for
centuries.
Recent
advances
in
science
and
chemistry
offered
fibers
new
applications
with
various
functions,
including
energy
harvesting,
storing,
displaying,
health
monitoring
treating,
computing.
unique
one-dimensional
shape
devices
endows
them
advantages
to
work
as
human-interfaced
electronics
due
small
size,
lightweight,
flexibility,
feasibility
integration
into
large-scale
textile
systems.
In
this
review,
we
first
present
a
discussion
basics
design
principles
devices,
followed
by
comprehensive
analysis
on
recently
developed
devices.
Finally,
provide
current
challenges
facing
field
give
an
outlook
future
research
directions.
With
novel
continuing
be
discovered
after
two
decades
research,
envision
that
could
have
important
impact
our
life
near
future.
Advanced Materials,
Journal Year:
2019,
Volume and Issue:
31(48)
Published: Sept. 19, 2019
Abstract
Recent
progress
in
electronic
skin
or
e‐skin
research
is
broadly
reviewed,
focusing
on
technologies
needed
three
main
applications:
skin‐attachable
electronics,
robotics,
and
prosthetics.
First,
since
will
be
exposed
to
prolonged
stresses
of
various
kinds
needs
conformally
adhered
irregularly
shaped
surfaces,
materials
with
intrinsic
stretchability
self‐healing
properties
are
great
importance.
Second,
tactile
sensing
capability
such
as
the
detection
pressure,
strain,
slip,
force
vector,
temperature
important
for
health
monitoring
attachable
devices,
enable
object
manipulation
surrounding
environment
robotics
For
chemical
electrophysiological
wireless
signal
communication
high
significance
fully
gauge
state
users
ensure
user
comfort.
prosthetics,
large‐area
integration
3D
surfaces
a
facile
scalable
manner
critical.
Furthermore,
new
processing
strategies
using
neuromorphic
devices
efficiently
process
information
parallel
low
power
manner.
neural
interfacing
electrodes
These
topics
discussed,
progress,
current
challenges,
future
prospects.
Advanced Materials,
Journal Year:
2016,
Volume and Issue:
28(22), P. 4184 - 4202
Published: Jan. 5, 2016
Graphene
provides
outstanding
properties
that
can
be
integrated
into
various
flexible
and
stretchable
electronic
devices
in
a
conventional,
scalable
fashion.
The
mechanical,
electrical,
optical
of
graphene
make
it
an
attractive
candidate
for
applications
electronics,
energy-harvesting
devices,
sensors,
other
systems.
Recent
research
progress
on
graphene-based
electronics
is
reviewed
here.
production
fabrication
methods
used
target
device
are
first
briefly
discussed.
Then,
the
types
enabled
by
discussed,
including
logic
bioinspired
devices.
results
represent
important
steps
development
could
find
area
electronics.
ACS Nano,
Journal Year:
2017,
Volume and Issue:
11(8), P. 7634 - 7641
Published: July 18, 2017
Tattoo-like
epidermal
sensors
are
an
emerging
class
of
truly
wearable
electronics,
owing
to
their
thinness
and
softness.
While
most
them
based
on
thin
metal
films,
a
silicon
membrane,
or
nanoparticle-based
printable
inks,
we
report
sub-micrometer
thick,
multimodal
electronic
tattoo
that
made
graphene.
The
graphene
(GET)
is
designed
as
filamentary
serpentines
fabricated
by
cost-
time-effective
“wet
transfer,
dry
patterning”
method.
It
has
total
thickness
463
±
30
nm,
optical
transparency
∼85%,
stretchability
more
than
40%.
GET
can
be
directly
laminated
human
skin
just
like
temporary
fully
conform
the
microscopic
morphology
surface
via
van
der
Waals
forces.
open-mesh
structure
makes
it
breathable
its
stiffness
negligible.
A
bare
able
stay
attached
for
several
hours
without
fracture
delamination.
With
liquid
bandage
coverage,
may
functional
up
days.
As
electrode,
GET–skin
interface
impedance
par
with
medically
used
silver/silver-chloride
(Ag/AgCl)
gel
electrodes,
while
offering
superior
comfort,
mobility,
reliability.
been
successfully
applied
measure
electrocardiogram
(ECG),
electromyogram
(EMG),
electroencephalogram
(EEG),
temperature,
hydration.
Frontiers in Neuroscience,
Journal Year:
2018,
Volume and Issue:
12
Published: Jan. 21, 2018
Graphene
displays
properties
that
make
it
appealing
for
neuroregenerative
medicine,
yet
its
interaction
with
peripheral
neurons
has
been
scarcely
investigated.
Here,
we
culture
on
graphene
two
established
models
neurons:
PC12
cells
and
DRG
primary
neurons.
We
perform
a
nano-resolved
analysis
of
polymeric
coatings
combine
optical
microscopy
viability
assays
to
assess
the
material
cytocompatibility
influence
differentiation.
find
differentiated
display
remarkably
increased
neurite
length
(up
27%)
respect
controls.
Notably,
survive
both
bare
coated
graphene.
They
present
dense
axonal
networks
graphene,
while
they
form
cell
islets
characterized
by
bundles
uncoated
These
findings
indicate
holds
potential
nerve
tissue
regeneration
might
pave
road
novel
concepts
active
conduits.
Chemical Reviews,
Journal Year:
2017,
Volume and Issue:
117(3), P. 1826 - 1914
Published: Jan. 11, 2017
Functional
graphene
nanomaterials
(FGNs)
are
fast
emerging
materials
with
extremely
unique
physical
and
chemical
properties
physiological
ability
to
interfere
and/or
interact
bioorganisms;
as
a
result,
FGNs
present
manifold
possibilities
for
diverse
biological
applications.
Beyond
their
use
in
drug/gene
delivery,
phototherapy,
bioimaging,
recent
studies
have
revealed
that
can
significantly
promote
interfacial
biointeractions,
particular,
proteins,
mammalian
cells/stem
cells,
microbials.
adsorb
concentrate
nutrition
factors
including
proteins
from
media.
This
accelerates
the
formation
of
extracellular
matrix,
which
eventually
promotes
cell
colonization
by
providing
more
beneficial
microenvironment
adhesion
growth.
Furthermore,
also
cocultured
cells
or
stimulation,
mediate
cellular
signaling
performance.
In
this
review,
we
elucidate
FGNs–bioorganism
interactions
summarize
advancements
on
designing
FGN-based
two-dimensional
three-dimensional
architectures
multifunctional
platforms.
We
discussed
representative
applications
regarding
these
bioactive
architectures.
future
perspectives
challenges
will
be
highlighted.
Due
lack
comprehensive
reviews
field,
review
may
catch
great
interest
inspire
many
new
opportunities
across
broad
range
disciplines.
