Advanced Science,
Год журнала:
2025,
Номер
unknown
Опубликована: Апрель 11, 2025
Abstract
Hearing
loss
is
among
the
most
prevalent
sensory
impairments
globally.
aids
assist
individuals
with
hearing
in
perceiving
sound
more
effectively,
serving
as
essential
tools
for
reconnecting
them
world.
Herein,
an
MXene/Polyvinyl
Alcohol
sensor
(MPSS)
capable
of
recognizing
weak
signals
developed.
It
can
not
only
recognize
different
speech
and
properties
but
also
show
good
stability
process
long‐term
recording.
In
addition,
by
combining
machine
learning,
accuracy
rate
voiceprint
recognition
wildlife
conservation
up
to
99%,
underscoring
its
practical
significance
protection.
Utilizing
piezoresistive
effects,
a
aid
detection
threshold
60
dB
frequency
range
20–4000
Hz
achieved,
which
provides
feasible
scheme
aids.
Biosensors,
Год журнала:
2024,
Номер
14(11), С. 560 - 560
Опубликована: Ноя. 18, 2024
Wearable
biosensors
are
a
fast-evolving
topic
at
the
intersection
of
healthcare,
technology,
and
personalized
medicine.
These
sensors,
which
frequently
integrated
into
clothes
accessories
or
directly
applied
to
skin,
provide
continuous,
real-time
monitoring
physiological
biochemical
parameters
such
as
heart
rate,
glucose
levels,
hydration
status.
Recent
breakthroughs
in
downsizing,
materials
science,
wireless
communication
have
greatly
improved
functionality,
comfort,
accessibility
wearable
biosensors.
This
review
examines
present
status
biosensor
with
an
emphasis
on
advances
sensor
design,
fabrication
techniques,
data
analysis
algorithms.
We
analyze
diverse
applications
clinical
diagnostics,
chronic
illness
management,
fitness
tracking,
emphasizing
their
capacity
transform
health
facilitate
early
disease
diagnosis.
Additionally,
this
seeks
shed
light
future
healthcare
wellness
by
summarizing
existing
trends
new
advancements.
Microsystems & Nanoengineering,
Год журнала:
2025,
Номер
11(1)
Опубликована: Март 19, 2025
Abstract
Flexible
devices
are
increasingly
crucial
in
various
aspects
of
our
lives,
including
healthcare
and
human-machine
interface
systems,
revolutionizing
human
life.
As
technology
evolves
rapidly,
there
is
a
high
demand
for
innovative
manufacturing
methods
that
enable
rapid
prototyping
custom
multifunctional
flexible
with
quality.
Recently,
digital
light
processing
(DLP)
3D
printing
has
emerged
as
promising
approach
due
to
its
capabilities
creating
intricate
customized
structures,
fabrication
speed,
low-cost
widespread
adoption.
This
review
provides
state-of-the-art
overview
the
recent
advances
creation
using
DLP
printing,
focus
on
soft
actuators,
sensors
energy
devices.
We
emphasize
how
development
printable
materials
enhance
structural
design,
sensitivity,
mechanical
performance,
overall
functionality
these
Finally,
we
discuss
challenges
perspectives
associated
DLP-printed
anticipate
continued
advancements
will
foster
smarter
devices,
shortening
design-to-manufacturing
cycles.
Sensors,
Год журнала:
2025,
Номер
25(2), С. 556 - 556
Опубликована: Янв. 19, 2025
The
increasing
demand
for
personalized
healthcare,
particularly
among
individuals
requiring
continuous
health
monitoring,
has
driven
significant
advancements
in
sensor
technology.
Wearable,
non-continuous
and
non-contact
sensors
are
leading
this
innovation,
providing
novel
methods
monitoring
vital
signs
physiological
data
both
clinical
home
settings.
However,
there
is
a
lack
of
comprehensive
comparative
studies
assessing
the
overall
functionality
these
technologies.
This
paper
aims
to
address
gap
by
presenting
detailed
analysis
selected
wearable,
used
monitoring.
To
achieve
this,
we
conducted
evaluation
various
available
on
market,
utilizing
key
indicators
such
as
performance,
usability,
associated
platforms
functionality,
management,
battery
efficiency,
cost-effectiveness.
Our
findings
highlight
strengths
limitations
each
type,
thus
offering
valuable
insights
selection
most
appropriate
technology
based
specific
healthcare
needs.
study
potential
serve
resource
researchers,
providers,
policymakers,
contributing
deeper
understanding
existing
user-centered
solutions.
Journal of Semiconductors,
Год журнала:
2025,
Номер
46(1), С. 011610 - 011610
Опубликована: Янв. 1, 2025
Abstract
Multimodal
sensor
fusion
can
make
full
use
of
the
advantages
various
sensors,
up
for
shortcomings
a
single
sensor,
achieve
information
verification
or
security
through
redundancy,
and
improve
reliability
safety
system.
Artificial
intelligence
(AI),
referring
to
simulation
human
in
machines
that
are
programmed
think
learn
like
humans,
represents
pivotal
frontier
modern
scientific
research.
With
continuous
development
promotion
AI
technology
Sensor
4.0
age,
multimodal
is
becoming
more
intelligent
automated,
expected
go
further
future.
this
context,
review
article
takes
comprehensive
look
at
recent
progress
on
AI-enhanced
sensors
their
integrated
devices
systems.
Based
concept
principle
technologies
algorithms,
theoretical
underpinnings,
technological
breakthroughs,
pragmatic
applications
fields
such
as
robotics,
healthcare,
environmental
monitoring
highlighted.
Through
comparative
study
dual/tri-modal
with
without
using
(especially
machine
learning
deep
learning),
highlight
potential
performance,
data
processing,
decision-making
capabilities.
Furthermore,
analyzes
challenges
opportunities
afforded
by
offers
prospective
outlook
forthcoming
advancements.
Nature Communications,
Год журнала:
2025,
Номер
16(1)
Опубликована: Фев. 25, 2025
Wearable
thermocells
offer
a
sustainable
energy
solution
for
wearable
electronics
but
are
hindered
by
poor
fatigue
resistance,
low
fracture
energy,
and
thermal
inefficiencies.
In
this
study,
we
present
high-strength,
fatigue-resistant
thermocell
with
enhanced
thermoelectric
performance
through
solvent
exchange-assisted
annealing
chaotropic
effect-enhanced
properties.
The
mechanical
strength
toughness
improved
forming
macromolecular
crystal
domains
entangling
polymer
chains.
Guanidine
ions,
strong
properties,
optimize
the
solvation
layer
of
redox
ion
couple,
boosting
efficiency.
Compared
to
existing
anti-fatigue
thermocells,
current
design
exhibits
20-fold
increase
in
(368
kJ
m-2)
3-fold
Seebeck
coefficient
(5.4
mV
K-1).
With
an
ultimate
tensile
12
MPa,
threshold
4.1
m-2,
specific
output
power
density
714
μW
m-2
K-2,
outperforms
designs,
enabling
more
reliable
efficient
stretchable
devices.
limited
durability
Here,
authors
develop
performance.
By
enhancing
entropy
difference,
it
boosts
resistance
thermopower.
