Micromachines,
Journal Year:
2025,
Volume and Issue:
16(3), P. 319 - 319
Published: March 10, 2025
In
recent
years,
the
improvement
in
living
standards
and
corresponding
increase
quality-of-life
expectations
have
significantly
increased
demand
for
advanced
electronic
products.
This
trend
has
generated
great
interest
human
health
monitoring
extensive
research
efforts.
Flexible
sensors
particular
are
being
given
preference
because
of
their
high
extensibility,
excellent
biocompatibility
properties,
low
weight,
cost.
present
work,
we
took
this
idea
further
designed
flexible
using
different
substrates
such
as
thermoplastic
polyurethane
(TPU),
polyimide
(PI),
polyethylene
terephthalate
(PET),
fabricating
them
with
silver
paste
ink
screen-printing
technology.
A
uniform
homogeneous
conductive
layer
was
formed,
which
identified
through
Scanning
Electron
Microscopy
(SEM)
analysis.
Additionally,
width
printed
approximately
100
µm.
study
contributes
to
design
fabrication
a
new
generation
monitoring.
The
results
demonstrate
that
these
technically
possible
part
long-term
wearable
health-monitoring
solutions
care
technologies.
Exploration,
Journal Year:
2024,
Volume and Issue:
4(5)
Published: March 14, 2024
Abstract
Neural
interfaces,
emerging
at
the
intersection
of
neurotechnology
and
urban
planning,
promise
to
transform
how
we
interact
with
our
surroundings
communicate.
By
recording
decoding
neural
signals,
these
interfaces
facilitate
direct
connections
between
brain
external
devices,
enabling
seamless
information
exchange
shared
experiences.
Nevertheless,
their
development
is
challenged
by
complexities
in
materials
science,
electrochemistry,
algorithmic
design.
Electrophysiological
crosstalk
mismatch
electrode
rigidity
tissue
flexibility
further
complicate
signal
fidelity
biocompatibility.
Recent
closed‐loop
brain‐computer
while
promising
for
mood
regulation
cognitive
enhancement,
are
limited
accuracy
adaptability
user
interfaces.
This
perspective
outlines
challenges
discusses
progress
contrasting
non‐invasive
invasive
approaches,
explores
dynamics
stimulation
interfacing.
Emphasis
placed
on
applications
beyond
healthcare,
highlighting
need
implantable
high‐resolution
capabilities.
Nano-Micro Letters,
Journal Year:
2025,
Volume and Issue:
17(1)
Published: Jan. 15, 2025
Abstract
The
proliferation
of
wearable
biodevices
has
boosted
the
development
soft,
innovative,
and
multifunctional
materials
for
human
health
monitoring.
integration
sensors
with
intelligent
systems
is
an
overwhelming
tendency,
providing
powerful
tools
remote
monitoring
personal
management.
Among
many
candidates,
two-dimensional
(2D)
stand
out
due
to
several
exotic
mechanical,
electrical,
optical,
chemical
properties
that
can
be
efficiently
integrated
into
atomic-thin
films.
While
previous
reviews
on
2D
primarily
focus
conventional
configurations
like
graphene,
rapid
new
opened
up
novel
applications,
particularly
in
smart
interaction
functionalities.
This
review
aims
consolidate
recent
progress,
highlight
unique
advantages
materials,
guide
future
research
by
discussing
existing
challenges
opportunities
applying
biodevices.
We
begin
in-depth
analysis
advantages,
sensing
mechanisms,
potential
applications
biodevice
fabrication.
Following
this,
we
systematically
discuss
state-of-the-art
based
various
physiological
signals
within
body.
Special
attention
given
showcasing
multi-functionality
devices,
mainly
including
self-power
supply,
diagnosis/treatment,
human–machine
interaction.
Finally,
concludes
a
concise
summary
prospective
solutions
concerning
utilization
advanced
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.
Sensors,
Journal Year:
2025,
Volume and Issue:
25(2), P. 556 - 556
Published: Jan. 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 Materials Chemistry A,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Jan. 1, 2024
This
review
examines
the
integration
of
artificial
intelligence
with
nanogenerators
to
develop
self-powered,
adaptive
systems
for
applications
in
robotics,
wearables,
and
environmental
monitoring.
Advanced Functional Materials,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 6, 2025
Abstract
The
droplet
triboelectric
nanogenerator
(D‐TENG)
harnesses
energy
from
natural
water
droplets,
though
its
performance
and
lifespan
can
be
compromised
by
contamination
on
the
functional
layer.
Water
molecules
have
a
strong
affinity
for
polymer
surfaces,
which
increases
surface
tension
sliding‐off
angle,
leading
to
greater
adhesion.
As
these
droplets
evaporate,
they
leave
behind
residues,
such
as
calcium
(Ca)
magnesium
(Mg)
salts,
that
obscure
surface,
thereby
diminishing
electrification
area
altering
dynamics—resulting
in
decreased
electrical
output.
This
study
presents
micro‐nanostructured
D‐TENG
with
advanced
anti‐fouling
capabilities.
By
adding
layer
of
metal
nanoparticles
followed
ion
etching
fluorination
grafting,
retention
accumulation
are
effectively
minimized.
demonstrates
fourfold
increase
output
compared
predecessor.
Following
10
000
interactions,
original
drops
53%,
whereas
variant
only
experiences
7%
reduction.
These
enhancements
provide
significant
insights
applications
contribute
development
strategies.
