Advanced Science,
Год журнала:
2025,
Номер
unknown
Опубликована: Апрель 17, 2025
Abstract
Accurate
health
analysis
demands
real‐time
tracking
of
multiple
biomarkers
and
vital
signs
under
dynamic
physiological
conditions.
Current
multimodal
hybrid
platforms
provide
biochemical
biophysical
data
but
are
limited
by
active
sweat
collection
for
sensing
bulky
designs
sensing.
Here
a
touch‐enabled
platform
is
presented
that
simultaneously
monitors
vitals
metabolic
markers.
With
simple
tri‐finger
touch,
the
measures
mean
arterial
pressure
heart
rate
using
photoplethysmography,
glucose,
uric
acid,
cortisol
at
rest
leveraging
natural
perspiration
fingertip.
Extended
studies
involving
diverse
activities
reveal
strong
interplay
among
profiles,
with
showing
highest
sensitivity
to
fluctuations.
The
delivers
comprehensive
information
linking
diet,
lifestyle,
metabolism,
serves
as
an
early
or
hormonal
stress
indicator.
Valuable
insights
gained
through
position
it
promising
tool
personalized
wellness
management.
Advanced Materials,
Год журнала:
2024,
Номер
36(26)
Опубликована: Апрель 4, 2024
Continuous
monitoring
of
blood
pressure
(BP)
and
multiparametric
analysis
cardiac
functions
are
crucial
for
the
early
diagnosis
therapy
cardiovascular
diseases.
However,
existing
approaches
often
suffer
from
bulky
intrusive
apparatus,
cumbersome
testing
procedures,
challenging
data
processing,
hampering
their
applications
in
continuous
monitoring.
Here,
a
heterogeneously
hierarchical
piezoelectric
composite
is
introduced
wearable
BP
function
monitoring,
overcoming
rigidity
ceramic
insensitivity
polymer.
By
optimizing
structure
components
composite,
developed
sensor
delivers
impressive
performances,
ensuring
accurate
at
Grade
A
level.
Furthermore,
hemodynamic
parameters
extracted
detected
signals,
such
as
local
pulse
wave
velocity,
output,
stroke
volume,
all
which
alignment
with
clinical
results.
Finally,
all-day
tracking
validates
reliability
stability
sensor,
highlighting
its
potential
personalized
healthcare
systems,
particularly
timely
intervention
disease.
ACS Nano,
Год журнала:
2024,
Номер
18(26), С. 17175 - 17184
Опубликована: Июнь 14, 2024
High-performance
tactile
sensors
with
skin-sensing
properties
are
crucial
for
intelligent
perception
in
next-generation
smart
devices.
However,
previous
studies
have
mainly
focused
on
the
sensitivity
and
response
range
of
sensation
while
neglecting
ability
to
recognize
object
softness.
Therefore,
achieving
a
precise
softness
remains
challenge.
Here,
we
report
an
integrated
sensor
consisting
central
hole
gradient
structure
pressure
planar
strain
sensor.
The
recognition
is
achieved
through
synergistic
effect
that
sense
applied
target
object.
results
indicate
evaluation
parameter
(SC)
structural
increases
from
0.14
0.47
along
Young's
modulus
decreasing
2.74
0.45
MPa,
demonstrating
accurate
recognition.
It
also
exhibits
high
10.55
kPa–1
ultrawide
linear
0–1000
kPa,
showing
excellent
sensing
capability.
Further,
robotic
hand
system
based
was
developed,
which
can
identify
soft
foam
glass
grasp
them
accurately,
indicating
human
skin-like
grasping
capabilities.
Advanced Science,
Год журнала:
2025,
Номер
unknown
Опубликована: Янв. 3, 2025
Sound
signals
not
only
serve
as
the
primary
communication
medium
but
also
find
application
in
fields
such
medical
diagnosis
and
fault
detection.
With
public
healthcare
resources
increasingly
under
pressure,
challenges
faced
by
disabled
individuals
on
a
daily
basis,
solutions
that
facilitate
low-cost
private
hold
considerable
promise.
Acoustic
methods
have
been
widely
studied
because
of
their
lower
technical
complexity
compared
to
other
solutions,
well
high
safety
threshold
human
body
acoustic
energy.
Furthermore,
with
recent
development
artificial
intelligence
technology
applied
speech
recognition,
recognition
devices,
systems
capable
assisting
interacting
scenes
are
constantly
being
updated.
This
review
meticulously
summarizes
sensing
mechanisms,
materials,
structural
design,
multidisciplinary
applications
wearable
devices
health
human-computer
interaction.
Further,
advantages
disadvantages
different
approaches
used
flexible
various
examined.
Finally,
current
roadmap
for
future
research
analyzed
based
existing
progress
achieve
more
comprehensive
personalized
healthcare.
Wearable electronics.,
Год журнала:
2024,
Номер
1, С. 53 - 77
Опубликована: Май 13, 2024
With
the
evolution
of
Industry
4.0,
next-generation
wearable
devices
have
come
under
spotlight,
where
organic
electronics
are
playing
an
important
role
due
to
their
flexible
form
factor,
high
performance,
and
integration
capability.
Designed
conform
soft
dynamic
surfaces,
photodetectors
(OPDs)
integrated
arrays
stand
out
for
application
potential
in
non-invasive
biosensing
bio-imaging,
with
inherent
advantages
mitigating
motion
artifacts
–
a
notable
limitation
traditional,
rigid
photodetector
systems.
Leveraging
near-infrared
(NIR)
spectrum's
capability
deep
skin
penetration
minimal
scattering
human
tissues,
NIR
OPDs
especially
capable
precise
diagnostics
enhanced
signal
quality.
The
adaptable
factor
further
broadens
applications
human-environment
interaction,
marking
shift
towards
more
responsive
intelligent
technologies.
This
review
summarizes
latest
challenges
breakthroughs
OPDs,
emphasizing
effective
strategies
toward
high-performance
device
units
We
discuss
remaining
outlook
on
vast
reshaping
our
interaction
surroundings.
Nano Letters,
Год журнала:
2024,
Номер
24(10), С. 3186 - 3195
Опубликована: Фев. 27, 2024
Multisensory
integration
enables
the
simultaneous
perception
of
multiple
environmental
stimuli
while
minimizing
size
and
energy
consumption.
However,
conventional
multifunctional
in
flexible
electronics
typically
requires
large-scale
horizontal
sensing
arrays
(such
as
printed
circuit
boards),
posing
decoupling
complexities,
tensile
strain
limitation,
spatial
constraints.
Herein,
a
fully
multimodal
system
(FMSS)
is
developed
by
coupling
biomimetic
stretchable
conductive
films
(BSCFs)
strain-insensitive
communication
interfaces
using
vertical
stacking
strategy.
The
FMSS
achieves
without
additional
adhesives,
it
can
incorporate
individual
layers
interconnects
any
essential
constraint
on
their
deformations.
Accordingly,
temperature
pressure
are
precisely
decoupled
simultaneously,
stress
be
accurately
discerned
different
directions.
This
strategy
expected
to
offer
new
approach
significantly
streamline
design
fabrication
systems
enhance
capabilities.
Chemical Reviews,
Год журнала:
2024,
Номер
124(18), С. 10386 - 10434
Опубликована: Авг. 27, 2024
Wearable
devices
can
provide
timely,
user-friendly,
non-
or
minimally
invasive,
and
continuous
monitoring
of
human
health.
Recently,
multidisciplinary
scientific
communities
have
made
significant
progress
regarding
fully
integrated
wearable
such
as
sweat
sensors,
saliva
wound
sensors.
However,
the
translation
these
wearables
into
markets
has
been
slow
due
to
several
reasons
associated
with
poor
system-level
performance
wearables.
The
wearability
consideration
for
compromises
many
properties
Besides,
limited
power
capacity
hinders
extended
duration.
Furthermore,
peak-power
operations
intensive
computations
quickly
create
thermal
issues
in
compact
form
factor
that
interfere
sensor
operations.
Moreover,
are
constantly
subjected
environmental,
mechanical,
chemical,
electrical
interferences
variables
invalidate
collected
data.
This
generates
need
sophisticated
data
analytics
contextually
identify,
include,
exclude
points
per
multisensor
fusion
enable
accurate
interpretation.
review
synthesizes
challenges
surrounding
device
integration
from
three
aspects
terms
hardware,
energy,
data,
focuses
on
a
discussion
about
hybrid
devices,
seeks
comprehensive
guidance
designing
functional
stable
devices.
Communications Materials,
Год журнала:
2024,
Номер
5(1)
Опубликована: Окт. 5, 2024
Abstract
Wearable
sensors
provide
a
good
solution
for
real-time
monitoring
of
human
health,
and
great
progress
has
been
made
in
miniaturization,
flexibility,
low
power
consumption
intelligence
recent
years.
Here,
we
introduce
the
principles
wearable
their
applications
disease
surveillance.
Physiological
signals
mainly
include
physical
biochemical
signals.
Among
various
used
to
monitor
physiological
signals,
have
introduced
basic
working
mechanical
electrochemical
sensors.
We
summarize
examples
clever
integration
with
daily
products,
cases
applied
respiratory
system,
cardiovascular
nervous
musculoskeletal
system
metabolic
system.
In
view
current
situation
terms
materials,
structure,
technology
energy,
discuss
challenges
solutions
sensors,
look
forward
application
prospects
