Advanced Science,
Journal Year:
2020,
Volume and Issue:
8(2)
Published: Dec. 4, 2020
Abstract
On‐skin
electrodes
function
as
an
ideal
platform
for
collecting
high‐quality
electrophysiological
(EP)
signals
due
to
their
unique
characteristics,
such
stretchability,
conformal
interfaces
with
skin,
biocompatibility,
and
wearable
comfort.
The
past
decade
has
witnessed
great
advancements
in
performance
optimization
extension
of
on‐skin
electrodes.
With
continuous
development
promise
practical
applications,
are
playing
increasingly
important
role
EP
monitoring
human–machine
(HMI).
In
this
review,
the
latest
progress
integrated
system
is
summarized.
Desirable
features
briefly
discussed
from
perspective
performances.
Then,
recent
advances
electrode
materials,
followed
by
analysis
strategies
methods
enhance
adhesion
breathability
examined.
addition,
representative
systems
applications
healthcare
HMI
introduced
detail.
It
concluded
discussion
key
challenges
opportunities
systems.
Nature Communications,
Journal Year:
2022,
Volume and Issue:
13(1)
Published: March 10, 2022
Abstract
Electronic
skins
(e-skins)
are
devices
that
can
respond
to
mechanical
stimuli
and
enable
robots
perceive
their
surroundings.
A
great
challenge
for
existing
e-skins
is
they
may
easily
fail
under
extreme
conditions
due
multilayered
architecture
with
mismatch
weak
adhesion
between
the
interlayers.
Here
we
report
a
flexible
pressure
sensor
tough
interfaces
enabled
by
two
strategies:
quasi-homogeneous
composition
ensures
match
of
interlayers,
interlinked
microconed
interface
results
in
high
interfacial
toughness
390
J·m
−2
.
The
endows
exceptional
signal
stability
determined
performing
100,000
cycles
rubbing,
fixing
on
car
tread
driving
2.6
km
an
asphalt
road.
topological
interlinks
be
further
extended
soft
robot-sensor
integration,
enabling
seamless
robot
highly
stable
sensing
performance
during
manipulation
tasks
complicated
conditions.
ACS Nano,
Journal Year:
2021,
Volume and Issue:
15(6), P. 9746 - 9758
Published: June 3, 2021
Flexible,
breathable,
and
degradable
pressure
sensors
with
excellent
sensing
performance
are
drawing
tremendous
attention
for
various
practical
applications
in
wearable
artificial
skins,
healthcare
monitoring,
intelligence
due
to
their
flexibility,
breathability,
lightweight,
decreased
electronic
rubbish,
environmentally
friendly
impact.
However,
traditional
plastic
or
elastomer
substrates
impermeability,
uncomfortableness,
mechanical
mismatches,
nondegradability
greatly
restricted
applications.
Therefore,
the
fabrication
of
such
high
facile
degradability,
breathability
is
still
a
critical
challenge
highly
desired.
Herein,
we
present
wearable,
degradable,
sensitive
MXene/protein
nanocomposites-based
sensor.
The
fabricated
MXene/protein-based
sensor
assembled
from
breathable
conductive
MXene
coated
silk
fibroin
nanofiber
(MXene-SF)
membrane
patterned
ink-printed
(MXene
ink-SF)
interdigitated
electrode,
which
can
serve
as
layer
electrode
layer,
respectively.
exhibits
wide
range
(up
39.3
kPa),
sensitivity
(298.4
kPa-1
1.4-15.7
kPa;
171.9
15.7-39.3
fast
response/recovery
time
(7/16
ms),
reliable
cycling
stability
over
10
000
cycles,
good
biocompatibility,
robust
degradability.
Furthermore,
it
shows
great
monitoring
human
psychological
signals,
acting
an
skin
quantitative
illustration
distribution,
wireless
biomonitoring
real
time.
Considering
biodegradable
features,
may
become
promising
find
potential
smart
motion
detection,
disease
diagnosis,
human-machine
interaction.
Chemical Society Reviews,
Journal Year:
2020,
Volume and Issue:
49(13), P. 4466 - 4495
Published: Jan. 1, 2020
Deformable
energy
storage
devices
are
needed
to
power
the
next
generation
of
wearable
electronics.
This
review
highlights
most
recent
advances
in
stretchable
with
a
focus
on
batteries
and
supercapacitors.
Advanced Science,
Journal Year:
2020,
Volume and Issue:
8(2)
Published: Dec. 4, 2020
Abstract
On‐skin
electrodes
function
as
an
ideal
platform
for
collecting
high‐quality
electrophysiological
(EP)
signals
due
to
their
unique
characteristics,
such
stretchability,
conformal
interfaces
with
skin,
biocompatibility,
and
wearable
comfort.
The
past
decade
has
witnessed
great
advancements
in
performance
optimization
extension
of
on‐skin
electrodes.
With
continuous
development
promise
practical
applications,
are
playing
increasingly
important
role
EP
monitoring
human–machine
(HMI).
In
this
review,
the
latest
progress
integrated
system
is
summarized.
Desirable
features
briefly
discussed
from
perspective
performances.
Then,
recent
advances
electrode
materials,
followed
by
analysis
strategies
methods
enhance
adhesion
breathability
examined.
addition,
representative
systems
applications
healthcare
HMI
introduced
detail.
It
concluded
discussion
key
challenges
opportunities
systems.
