Polymers,
Journal Year:
2024,
Volume and Issue:
16(18), P. 2623 - 2623
Published: Sept. 17, 2024
With
the
development
of
science
and
technology,
wearable
electronics
are
increasingly
widely
used
in
medical,
environmental
monitoring,
other
fields.
Thus,
demand
for
flexible
electrodes
is
increasing.
The
two-dimensional
material
Ti3C2Tx
has
attracted
much
attention
manufacture
due
to
its
excellent
mechanical
electrical
properties.
However,
brittleness
pure
films
become
a
major
obstacle
their
use
as
devices.
Therefore,
solving
problem
based
on
while
maintaining
performance
an
urgent
problem.
To
solve
this
problem,
was
compounded
with
waterborne
polyurethane
(WPU),
Ti3C2Tx-WPU
composite
film
hierarchical
structure
constructed
by
evaporation-assisted
self-assembly.
not
only
retains
conductivity
(100
S
m−1)
but
also
flexibility
(20
MJ
m−3).
Furthermore,
applied
functional
devices
such
contact
pressure
sensors
non-contact
proximity
sensors.
Finally,
device
demonstrates
practical
application
potential
field
Sensors,
Journal Year:
2025,
Volume and Issue:
25(5), P. 1377 - 1377
Published: Feb. 24, 2025
The
development
of
wearable
sensor
devices
brings
significant
benefits
to
patients
by
offering
real-time
healthcare
via
wireless
body
area
networks
(WBANs).
These
have
gained
traction
due
advantageous
features,
including
their
lightweight
nature,
comfortable
feel,
stretchability,
flexibility,
low
power
consumption,
and
cost-effectiveness.
Wearable
play
a
pivotal
role
in
healthcare,
defence,
sports,
health
monitoring,
disease
detection,
subject
tracking.
However,
the
irregular
nature
human
poses
challenge
design
such
systems.
This
manuscript
provides
comprehensive
review
recent
advancements
flexible
smart
that
can
support
next
generation
devices.
Further,
direct
ink
writing
(DIW)
(DW)
methods
has
revolutionised
new
high-resolution
integrated
structures,
enabling
next-generation
soft,
flexible,
stretchable
Recognising
importance
keeping
academia
industry
informed
about
cutting-edge
technology
time-efficient
fabrication
tools,
this
also
thorough
overview
latest
progress
various
for
utilised
WBAN
evaluation
using
phantoms.
An
emerging
challenges
future
research
directions
is
discussed
conclusion.
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.
