Bioinspired Intelligent Electronic Skin for Medicine and Healthcare
Zhirong Liu,
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Junhao Hu,
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Guozhen Shen
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et al.
Small Methods,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Feb. 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.
Language: Английский
Flexible Optoelectronic Hybrid Microfiber Long‐period Grating Multimodal Sensor
Zhenru Li,
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Li‐Peng Sun,
No information about this author
Yanzhen Tan
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et al.
Advanced Science,
Journal Year:
2025,
Volume and Issue:
unknown
Published: March 8, 2025
Flexible
wearable
biosensors
have
emerged
as
a
promising
tool
for
tracking
dynamic
glycemic
profiles
of
human
body
in
diabetes
management.
However,
it
remains
challenge
to
balance
the
shrunken
device
space
and
multiple
redundant
sensing
arrays
further
advancement
miniaturization
multimodal
sensors.
Herein,
this
work
proposes
an
entirely
new
optoelectronic
hybrid
optical
fiber
sensor
which
is
composed
laser
patterning
polydimethylsiloxane
(PDMS)
form
laser-induced
graphene
(LIG)
interdigital
electrodes,
long
period
grating
(LPG)
prepared
from
microfiber
encapsulated
into
PDMS
modulated
by
periodical
structure
LIG
electrodes.
This
operation
can
simultaneously
integrate
two
heterogeneous
mechanisms,
electrical,
single
compact
manner.
Combining
electrode
with
conductive
hydrogel,
flexible
glucose
biosensor
based
on
electrical
mechanism
constructed
loading
oxidase
hydrogel.
Meanwhile,
LPG
also
be
served
spectroscopically
available
biomechanical
monitoring.
Optical
sensors
but
independently
each
other,
particularly
scene
wound
healing
rat
model
movement
exercise.
platform
represents
pivotal
step
toward
multifunctional
that
enable
measurements
information
glucose.
Language: Английский
Omnidirectionally Stretchable High-Performance Microbatteries Based on Nanocomposite Current Collectors
Nano Letters,
Journal Year:
2025,
Volume and Issue:
unknown
Published: May 2, 2025
Stretchable
electronics
are
transforming
next-generation
wearables
and
robotics,
creating
a
significant
demand
for
compatible
energy
storage
devices.
Microbatteries,
known
their
compact
flat
design,
hold
great
promise
but
often
face
limitations
of
low
strain
tolerance
unidirectional
stretchability.
Here,
we
introduce
omnidirectionally
stretchable
Zn-MnO2
microbatteries
featuring
innovative
nanocomposite
current
collectors.
These
collectors
comprise
serpentine-patterned
silver
nanowire
carbon
nanotube
nanocomposites
embedded
in
soft
elastomer,
which
effectively
dissipate
across
all
directions.
The
resulting
microbattery
achieves
impressive
performance,
including
high
capacity
(>1.5
mAh
cm-2),
excellent
rate
capability
(up
to
5.0
mA
robust
operation
under
omnidirectional/biaxial
strains.
Additionally,
multiple
cells
successfully
integrated
with
wireless
charging
circuit
LED
array,
forming
wearable
system
that
seamlessly
conforms
body
movements.
This
work
establishes
novel
design
framework
deformable
devices,
merging
superior
electrochemical
performance
multidirectional
Language: Английский
Humanoid electronic-skin technology for the era of Artificial Intelligence of Things
Matter,
Journal Year:
2025,
Volume and Issue:
8(5), P. 102136 - 102136
Published: May 1, 2025
Language: Английский
Antiswelling, Ultrastretchable, and Ultrastable Hydrogel Sensors for Long‐Term Underwater Monitoring
Hao Wang,
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Xingyue Lin,
No information about this author
Xin Li
No information about this author
et al.
Small,
Journal Year:
2025,
Volume and Issue:
unknown
Published: May 22, 2025
Abstract
Wearable
strain
sensors
designed
for
underwater
environments
and
monitoring
users’
health
status
safety
are
highly
desirable.
However,
constructing
antiswelling,
stretchable,
stable
hydrogel
prolonged
is
still
a
great
challenge.
In
this
work,
conductive
suitable
comprehensive
environmental
developed
by
integrating
montmorillonite
(MMT)
into
hydrogels.
The
hydrogels
demonstrate
exceptional
stretchability,
elasticity,
electrical
conductivity,
wide
operational
range,
high
sensing
accuracy.
Additionally,
the
exhibit
excellent
stability,
making
them
use
in
communication
alert
systems.
herein
present
novel
pathway
advancing
applications,
human‐robot
interaction,
soft
robotics,
intelligent
devices.
Language: Английский