Frontiers in Electronics,
Journal Year:
2025,
Volume and Issue:
6
Published: April 4, 2025
Flexible
electronic
skin
has
garnered
significant
interest
due
to
its
promising
applications
in
underwater
robotics,
aircraft
monitoring
systems,
and
human
healthcare
systems.
A
critical
requirement
for
flexible
is
exhibit
high
sensitivity,
stretchability,
stability.
Functional
materials,
as
essential
components
of
skin,
significantly
influence
the
overall
performance
device.
Consequently,
a
variety
material
structural
designs
have
been
developed
enhance
functional
materials.
This
perspective
delves
into
recent
advances
development
materials
engineering
strategies
that
endow
with
The
smart
precise
decoding
flow
field
are
highlighted.
Finally,
forward-looking
provided
on
future
decoding,
which
outlines
challenges
opportunities
ongoing
research
innovation
this
field.
Advanced Functional Materials,
Journal Year:
2025,
Volume and Issue:
unknown
Published: March 20, 2025
Abstract
Inspired
by
the
sensory
functions
of
human
skin,
development
electronic
skins
(e‐skins)
has
garnered
significant
attention.
Ionogels,
as
an
emerging
class
soft
materials,
show
promise
in
serving
e‐skins.
The
pursuit
a
sustainable
society
motivates
recyclable
ionogels,
typically
achieved
introducing
dynamic
non‐covalent
bonds.
However,
these
current
state‐of‐the‐art
methods
often
result
poor
elasticity
or
strain
softening,
which
significantly
limits
their
suitability
for
e‐skin
applications.
This
study
introduces
multifunctional
and
based
on
hierarchical
double‐network
ionogel
that
integrates
covalent
bonds
interactions.
seamlessly
key
including
strain‐stiffening
capability,
self‐healing
ability
within
12
h,
rapid
response
time
(120
ms),
high
(energy
loss
coefficient
0.07
at
150%
strain),
all
single
material.
enhance
cohesive
energy,
ensuring
elasticity,
while
improve
adhesive
properties.
As
proof
concept,
can
be
fabricated
into
strain‐temperature
dual‐modal
e‐skin,
exhibiting
sensitivity,
reliability,
state‐independent
performance.
advancement
highlights
potential
ionogels
next‐generation
wearable
devices.
Micromachines,
Journal Year:
2025,
Volume and Issue:
16(4), P. 394 - 394
Published: March 28, 2025
Electronic
skin
(E-skin)
refers
to
a
portable
medical
or
health
electronic
device
that
can
be
worn
directly
on
the
human
body
and
carry
out
perception,
recording,
analysis,
regulation,
intervention
even
treatment
of
diseases
maintenance
status
through
software
support.
Its
main
features
include
wearability,
real-time
monitoring,
convenience,
etc.
E-skin
is
convenient
for
users
wear
long
time
continuously
monitors
user’s
physiological
data
(such
as
heart
rate,
blood
pressure,
glucose,
etc.)
in
real
time.
Health
monitoring
performed
anytime
anywhere
without
frequent
visits
hospitals
clinics.
integrates
multiple
sensors
intelligent
algorithms
automatically
analyze
provide
advice
early
warning.
It
has
broad
application
prospects
field.
With
increasing
demand
E-skin,
development
multifunctional
integrated
with
low
power
consumption
autonomous
energy
become
common
goal
many
researchers.
This
paper
outlines
latest
progress
disease
treatment,
human–computer
interaction
other
fields.
The
existing
problems
this
field
are
presented.
Frontiers in Electronics,
Journal Year:
2025,
Volume and Issue:
6
Published: April 4, 2025
Flexible
electronic
skin
has
garnered
significant
interest
due
to
its
promising
applications
in
underwater
robotics,
aircraft
monitoring
systems,
and
human
healthcare
systems.
A
critical
requirement
for
flexible
is
exhibit
high
sensitivity,
stretchability,
stability.
Functional
materials,
as
essential
components
of
skin,
significantly
influence
the
overall
performance
device.
Consequently,
a
variety
material
structural
designs
have
been
developed
enhance
functional
materials.
This
perspective
delves
into
recent
advances
development
materials
engineering
strategies
that
endow
with
The
smart
precise
decoding
flow
field
are
highlighted.
Finally,
forward-looking
provided
on
future
decoding,
which
outlines
challenges
opportunities
ongoing
research
innovation
this
field.
