Journal of Engineering Research,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Feb. 1, 2024
Wireless
power
transfer
(WPT)
has
already
been
established
as
a
popular
technology
in
multiple
areas
such
electric
vehicle
charging,
smartphone
or
powering
bio-medical
implants.
In
recent
years,
wireless
electronic
textiles
(e-textiles)
smart
seen
rapid
growth
with
the
advancement
of
textile
materials
and
flexible
components.
Although
many
reviews
surveys
on
WPT
can
be
found
literature
for
other
fields,
this
is
not
case
application
e-textiles.
To
address
issue,
comparative
review
previous
e-textiles
presented
paper.
The
textile-based
systems
have
categorized
according
to
their
transmitter
(Tx)
receiver
(Rx)
properties,
Tx
Rx
fabrication
technique,
applied
substrate,
operating
frequency,
level,
achieved
efficiency.
tabular
analysis
different
parameters
acts
platform
researchers,
manufacturers,
industry
personnel
acquire
information
data
evaluating
systems.
opportunities
challenges
applications
also
discussed
detail
give
an
overview
prospects
field.
Chemical Reviews,
Journal Year:
2024,
Volume and Issue:
124(4), P. 1535 - 1648
Published: Feb. 19, 2024
Over
the
years,
researchers
have
made
significant
strides
in
development
of
novel
flexible/stretchable
and
conductive
materials,
enabling
creation
cutting-edge
electronic
devices
for
wearable
applications.
Among
these,
porous
textiles
(PCTs)
emerged
as
an
ideal
material
platform
electronics,
owing
to
their
light
weight,
flexibility,
permeability,
wearing
comfort.
This
Review
aims
present
a
comprehensive
overview
progress
state
art
utilizing
PCTs
design
fabrication
wide
variety
integrated
systems.
To
begin
with,
we
elucidate
how
revolutionize
form
factors
electronics.
We
then
discuss
preparation
strategies
PCTs,
terms
raw
processes,
key
properties.
Afterward,
provide
detailed
illustrations
are
used
basic
building
blocks
fabricate
intrinsically
flexible
or
stretchable
devices,
including
sensors,
actuators,
therapeutic
energy-harvesting
storage
displays.
further
describe
techniques
systems
either
by
hybridizing
conventional
off-the-shelf
rigid
components
with
integrating
multiple
fibrous
PCTs.
Subsequently,
highlight
some
important
application
scenarios
healthcare,
sports
training,
converging
technologies,
professional
specialists.
At
end
Review,
challenges
perspectives
on
future
research
directions
give
overall
conclusions.
As
demand
more
personalized
interconnected
continues
grow,
PCT-based
wearables
hold
immense
potential
redefine
landscape
technology
reshape
way
live,
work,
play.
Sensors,
Journal Year:
2025,
Volume and Issue:
25(1), P. 266 - 266
Published: Jan. 5, 2025
In
the
medical
field,
there
are
several
very
different
movement
disorders,
such
as
tremors,
Parkinson’s
disease,
or
Huntington’s
disease.
A
wide
range
of
motor
and
non-motor
symptoms
characterizes
them.
It
is
evident
that
in
modern
era,
use
smart
wrist
devices,
smartwatches,
wristbands,
bracelets
spreading
among
all
categories
people.
This
diffusion
justified
by
limited
costs,
ease
use,
less
invasiveness
(and
consequently
greater
acceptability)
than
other
types
sensors
used
for
health
status
monitoring.
systematic
review
aims
to
synthesize
research
studies
using
devices
a
specific
class
disorders.
Following
PRISMA-S
guidelines,
130
were
selected
analyzed.
For
each
study,
information
provided
relating
smartwatch/wristband/bracelet
model
(whether
it
commercial
not),
number
end-users
involved
experimentation
stage,
finally
characteristics
benchmark
dataset
possibly
testing.
Moreover,
some
articles
also
reported
type
raw
data
extracted
from
device,
implemented
designed
algorithmic
pipeline,
classification
methodology.
turned
out
most
have
been
published
last
ten
years,
showing
growing
interest
scientific
community.
The
mainly
investigate
relationship
between
Epilepsy
seizure
detection
topics
interest,
while
few
papers
analyzing
gait
Disease,
ataxia,
Tourette
Syndrome.
However,
results
this
highlight
difficulties
still
present
identified
despite
advantages
these
technologies
could
bring
dissemination
low-cost
solutions
usable
directly
within
living
environments
without
need
caregivers
personnel.
Journal of Industrial Textiles,
Journal Year:
2025,
Volume and Issue:
55
Published: Jan. 15, 2025
Mood
fluctuations,
influenced
by
factors
such
as
workplace
stress,
academic
pressure,
and
interpersonal
relationships,
can
significantly
affect
mental
health
decision
making.
Effective
mood
regulation
is
essential
for
maintaining
psychological
well-being,
especially
during
critical
developmental
phases
adolescence.
Traditional
management
methods
often
rely
on
personal
willpower
subjective
techniques,
which
be
inadequate
in
high
stress
situations.
Recent
advancements
wearable
technology,
particularly
the
field
of
smart
textiles,
have
led
to
continuous
objective
regulation.
This
review
explores
integration
textiles
with
regulation,
focusing
emerging
technologies
that
incorporate
principles
into
fabric
designs.
It
examines
various
equipped
sensors,
actuators,
biofeedback
mechanisms
monitor
physiological
indicators
related
mood,
heart
rate
skin
conductivity.
These
not
only
provide
real-time
feedback
but
also
offer
interactive
elements,
temperature
light
modulation,
tactile
feedback,
allowing
users
actively
engage
their
emotional
states.
In
addition,
mobile
applications
allows
track
patterns
identify
triggers,
thereby
enhancing
self-awareness.
end,
through
a
synthesis
current
research,
this
discusses
impacts
these
wearables,
including
efficacy
reduction,
anxiety
management,
overall
resilience.
highlights
challenges
future
research
directions
realm
ACS Sensors,
Journal Year:
2024,
Volume and Issue:
9(6), P. 2989 - 2998
Published: May 21, 2024
Flexible,
air
permeable
and
elastic
self-powered
sensors
for
human
motion
monitoring
assisted
medical
rehabilitation
have
recently
become
a
hot
research
topic.
However,
most
current
piezoelectric
can
not
account
many
characteristics.
Addressing
this
challenge,
an
all-textile
sensor
(ATPS)
based
on
3D
structured
knitted
fabric
electrodes
is
reported.
The
ATPS
consists
of
element
polyvinylidene
fluoride
nanofiber
membrane,
flexible
electrodes,
self-adhesive
bandage.
Based
the
efficient
knitting
technology,
has
advantages
low
cost,
flexibility,
simple
structure,
convenient
large-area
manufacturing.
Experimental
finite
simulation
results
show
that
pattern
enhance
output
ATPS.
optimal
high
voltage
response
sensitivity
up
to
0.68
V/kPa.
proposed
responds
wide
range
input
forces
from
0.098
724
N
in
mode,
verifying
its
feasibility
as
tactile
detection
recognition
(throat
swallowing,
wrist
bending,
elbow
knee
walking
slowly,
running
fast)
pressure
(Morse
code,
digit
recognition)
demonstrating
potential
tracking,
rehabilitation,
human-computer
interaction.
Soft Science,
Journal Year:
2024,
Volume and Issue:
4(1)
Published: Jan. 4, 2024
In
the
face
of
pandemic
infectious
diseases
and
increasing
aging
trends,
traditional
public
health
systems
lack
capacity
for
real-time
monitoring,
immediate
clinical
detection,
continuous
vital
sign
implementation
long-cycle
treatment
protocols,
among
other
deficiencies.
On
basis
rapid
development
wearable
electronic
devices,
Internet
Things,
artificial
intelligence,
future
healthcare
model
will
transform
from
a
therapeutic,
centralized,
passive,
even
one-size-fits-all
to
new
paradigm
proactive,
preventive,
personalized,
customized,
intelligent
way.
The
electronics
has
facilitated
evolution
biological
enabling
monitoring
critical
biomarkers
diagnostic
treatment,
physiological
assessment.
Electronic
textiles
(e-textiles)
are
rapidly
developing
in
recent
years.
They
have
revolutionized
functionality
by
incorporating
smart
attributes,
unique
multifunctional
applications.
Significantly,
e-textiles
made
notable
advancements
field
personalized
healthcare.
article
introduces
several
common
their
applications
medicines,
which
also
gives
forward-looking
outlook
on
growth
diseases,
preventive
auxiliary
therapy,
rehabilitation
training.
