MultiDimensional Bionic Structure-based Superhydrophobic and Stretchable Yarn Sensor for Motion Monitoring
ACS Applied Nano Materials,
Год журнала:
2025,
Номер
8(5), С. 2432 - 2442
Опубликована: Янв. 21, 2025
The
trade-off
between
electrical
conductivity
and
mechanical
flexibility
in
fiber
sensors
impedes
their
widespread
adoption.
During
sports
activities,
extensive
exposure
to
body
sweat
leads
a
decline
the
performance
of
sensors.
A
multidimensional
biomimetic
superhydrophobic
yarn
sensor
was
prepared,
utilizing
polyurethane
(PU)
as
core
dopamine-modified
MXene
sheath.
This
achieved
by
drawing
inspiration
from
structure
cerebral
cortex
combine
unique
plate-tile
Nepenthes.
Its
surface
bionic
microstructure
constructed
increase
number
conductive
connection
points,
resulting
plate
tile
realizing
high
sensitivity
ultrahigh
hydrophobicity
sensor.
final
prepared
exhibited
low
resistance
(0.6
KΩ),
(3397.6),
characteristics
(contact
angle
=
135.3°).
Integrating
yarns
with
polyamide
knit
fabric,
fabric
are
designed
effectively
detect
minor
muscle
movements.
capability
is
essential
for
precise
movement
monitoring
ensuring
prompt
medical
assistance
patients
severe
injuries.
approach
enhances
yarn-based
stretch
implementing
multistage
structure.
Additionally,
it
remains
unaffected
when
integrated
into
athlete
fabrics,
thereby
accuracy.
Язык: Английский
Bioinspired Intelligent Electronic Skin for Medicine and Healthcare
Small Methods,
Год журнала:
2025,
Номер
unknown
Опубликована: Фев. 5, 2025
Abstract
Intelligent
electronic
skin
aims
to
mimic,
enhance,
and
even
surpass
the
functions
of
biological
skin,
enabling
artificial
systems
sense
environmental
stimuli
interact
more
naturally
with
humans.
In
healthcare,
intelligent
is
revolutionizing
diagnostics
personalized
medicine
by
detecting
early
signs
diseases
programming
exogenous
for
timely
intervention
on‐demand
treatment.
This
review
discusses
latest
progress
in
bioinspired
its
application
healthcare.
First,
strategies
development
simulate
or
human
are
discussed,
focusing
on
basic
characteristics,
as
well
sensing
regulating
functions.
Then,
applications
health
monitoring
wearable
therapies
illustrating
potential
provide
warning
Finally,
significance
bridging
gap
between
emphasized
challenges
future
perspectives
summarized.
Язык: Английский
Skin‐Tailored Adhesive Bio‐Electrode with Tunable Poisson's Ratio for Stable Electrophysiological Communication
Hyun Seok Kang,
Sumin Kim,
Hyunggwi Song
и другие.
Advanced Healthcare Materials,
Год журнала:
2025,
Номер
unknown
Опубликована: Фев. 25, 2025
Abstract
Stretchable
electrodes
are
crucial
healthcare
device
components
for
electrophysiology
signal
sensing.
Compared
to
conventional
rigid
gel
electrodes,
stretchable
advantageous
long‐term
monitoring
with
superior
skin
conformality.
However,
current
devices
often
show
limited
compliance
and
adhesive
reliability,
especially
during
human
motion.
Here,
a
skin‐tailored
bio‐electrode
(STABL)
is
fabricated
using
substrate
designed
comply
the
deformation
behavior
of
wrist
skin.
The
patch
possesses
negative
Poisson's
ratio
(PR)
through
an
auxetic
structured
glass
fabric
reinforcement
embedded
in
soft,
elastomer
film.
Based
on
direct
measurement
behavior,
chemical
composition
geometry
optimized
match
PR
Using
this
tailored
substrate,
STABL
EGaIn
liquid
metal
conductors
exhibits
stability
communication
repetitive
motion
compared
pristine
PDMS
substrates.
This
result
highlights
potential
substrates
reliable,
wearable
bioelectronics
applications.
Язык: Английский
Deep-Learning-Based Analysis of Electronic Skin Sensing Data
Sensors,
Год журнала:
2025,
Номер
25(5), С. 1615 - 1615
Опубликована: Март 6, 2025
E-skin
is
an
integrated
electronic
system
that
can
mimic
the
perceptual
ability
of
human
skin.
Traditional
analysis
methods
struggle
to
handle
complex
e-skin
data,
which
include
time
series
and
multiple
patterns,
especially
when
dealing
with
intricate
signals
real-time
responses.
Recently,
deep
learning
techniques,
such
as
convolutional
neural
network,
recurrent
transformer
methods,
provide
effective
solutions
automatically
extract
data
features
recognize
significantly
improving
data.
Deep
not
only
capable
handling
multimodal
but
also
response
personalized
predictions
in
dynamic
environments.
Nevertheless,
problems
insufficient
annotation
high
demand
for
computational
resources
still
limit
application
e-skin.
Optimizing
algorithms,
efficiency,
exploring
hardware-algorithm
co-designing
will
be
key
future
development.
This
review
aims
present
techniques
applied
inspiration
subsequent
researchers.
We
first
summarize
sources
characteristics
models
applicable
their
applications
analysis.
Additionally,
we
discuss
use
e-skin,
particularly
health
monitoring
human-machine
interactions,
explore
current
challenges
development
directions.
Язык: Английский
A Low-Cost Hydrogel Electrode for Multifunctional Sensing: Strain, Temperature, and Electrophysiology
Biosensors,
Год журнала:
2025,
Номер
15(3), С. 177 - 177
Опубликована: Март 11, 2025
With
the
rapid
development
of
wearable
technology,
multifunctional
sensors
have
demonstrated
immense
application
potential.
However,
limitations
traditional
rigid
materials
restrict
flexibility
and
widespread
adoption
such
sensors.
Hydrogels,
as
flexible
materials,
provide
an
effective
solution
to
this
challenge
due
their
excellent
stretchability,
biocompatibility,
adaptability.
This
study
developed
a
sensor
based
on
composite
hydrogel
polyvinyl
alcohol
(PVA)
sodium
alginate
(SA),
using
poly(3,4-ethylenedioxythiophene)/polystyrene
sulfonate
(PEDOT:PSS)
conductive
material
achieve
detection
strain,
temperature,
physiological
signals.
The
features
simple
fabrication
process,
low
cost,
impedance.
Experimental
results
show
that
prepared
exhibits
outstanding
mechanical
properties
conductivity,
with
strength
118.8
kPa,
elongation
334%,
conductivity
256
mS/m.
In
strain
sensing,
demonstrates
response
minor
strains
(4%),
high
sensitivity
(gauge
factors
0.39
for
0–120%
0.73
120–200%
ranges),
short
time
(2.2
s),
hysteresis,
cyclic
stability
(over
500
cycles).
For
temperature
achieves
sensitivities
−27.43
Ω/K
(resistance
mode)
0.729
mV/K
(voltage
mode),
along
stable
performance
across
varying
ranges.
Furthermore,
has
been
successfully
applied
monitor
human
motion
(e.g.,
finger
bending,
wrist
movement)
signals
electrocardiogram
(ECG),
electromyogram
(EMG),
electroencephalogram
(EEG),
highlighting
its
significant
potential
in
health
monitoring.
By
employing
efficient
method,
presents
high-performance
sensor,
offering
novel
insights
technical
support
advancement
devices.
Язык: Английский