Sensors,
Journal Year:
2024,
Volume and Issue:
24(12), P. 3937 - 3937
Published: June 18, 2024
Textile-based
wearable
robotics
increasingly
integrates
sensing
and
energy
materials
to
enhance
functionality,
particularly
in
physiological
monitoring,
demanding
higher-performing
abundant
robotic
textiles.
Among
the
alternatives,
activated
carbon
cloth
stands
out
due
its
monolithic
nature
high
specific
surface
area,
enabling
uninterrupted
electron
transfer
storage
capability
electrical
double
layer,
respectively.
Yet,
potential
of
electrodes
(MACCEs)
wearables
still
needs
be
explored,
storage.
MACCE
conductance
increased
by
29%
when
saturated
with
Na2SO4
aqueous
electrolyte
charged
from
0
0.375
V.
was
validated
for
measuring
pressure
up
28
kPa
at
all
assessed
charge
levels.
Electrode
sensitivity
compression
decreased
30%
highest
repulsive
forces
between
like
charges
layers
surface,
counteracting
compression.
MACCE’s
controllable
decrease
can
beneficial
garments
avoiding
irrelevant
signals
focusing
on
essential
health
changes.
A
charge-dependent
provides
a
method
assessing
local
electrode
charge.
Our
study
highlights
controlled
charging
interactions
multifunctional
roles,
including
transmission
detection,
smart
wearables.
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
Small,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Feb. 17, 2025
Abstract
Advances
in
research
electronic
textiles
(E‐textiles)
that
primarily
cater
to
wearable
sensing
technology
have
found
amalgamation
with
self‐powered
technology,
especially
triboelectric
nanogenerators
(TENGs).
However,
developing
E‐textiles
properties
involves
a
multi‐step
process
and
complex
device
structure,
which
is
unsuitable
for
actual
wearables.
Also,
the
cellulose‐based
fabrics
highest
wearability
are
TENG
fabrication,
limiting
usage
synthetic
fabrics.
Apart
from
wearability,
self‐healing
behavior
another
significant
property
recently
being
looked
upon
sensors,
providing
long‐term
functionality.
Herein,
simple
yet
effective
approach
proposed
develop
dielectrically
optimized
coatings
cellulose
fabric‐based
sensors
by
leveraging
elastomers
tunable
dielectric
other
properties,
otherwise
catering
domain
of
skin
separately.
The
record
high
output
performance
power
density
4.69
W
m
−2
accomplished
using
single
fabric
layer
thickness
0.56
mm
supports
elastomeric
next‐generation
strategic
utilization
dynamic
covalent
chemistry
imparted
coating.
This
report
provides
single‐step
dip
coating
method
self‐healable
E‐textile.
Advanced Materials,
Journal Year:
2025,
Volume and Issue:
unknown
Published: March 25, 2025
This
review
article
explores
the
transformative
potential
of
smart
dust
systems
by
examining
how
existing
chemical
sensing
technologies
can
be
adapted
and
advanced
to
realize
their
full
capabilities.
Smart
dust,
characterized
submillimeter-scale
autonomous
platforms,
offers
unparalleled
opportunities
for
real-time,
spatiotemporal
mapping
across
diverse
environments.
introduces
technological
advancements
underpinning
these
systems,
critically
evaluates
current
limitations,
outlines
new
avenues
development.
Key
challenges,
including
multi-compound
detection,
system
control,
environmental
impact,
cost,
are
discussed
alongside
solutions.
By
leveraging
innovations
in
miniaturization,
wireless
communication,
AI-driven
data
analysis,
sustainable
materials,
this
highlights
promise
address
critical
challenges
monitoring,
healthcare,
agriculture,
defense
sectors.
Through
lens,
provides
a
strategic
roadmap
advancing
from
concept
practical
application,
emphasizing
its
role
transforming
understanding
management
complex
systems.
EcoMat,
Journal Year:
2025,
Volume and Issue:
7(4)
Published: April 1, 2025
ABSTRACT
Textile‐based
structurally
colored
materials
have
emerged
as
a
captivating
field
of
research
and
innovation,
presenting
unparalleled
prospects
to
revolutionize
the
realm
textiles
their
diverse
applications.
This
review
paper
provides
comprehensive
overview
progress
made
in
manufacturing
methods
applications
textiles.
Based
on
principles
Bragg
diffraction
its
extended
theorems,
mechanisms
behind
generation
structural
colors
are
explored,
revealing
underlying
that
enable
coloration.
The
versatile
effective
strategies
adopted
for
fabrication
textile‐based
materials,
such
gravity
sedimentation,
spray
coating,
vertical
deposition,
screen
printing,
shear‐induced
assembly,
additive
or
three‐dimensional
(3D)
dip
electrophoretic
electrospinning
discussed.
discussed,
with
specific
focus
anti‐counterfeiting
measures,
biomedical
field,
radiative
cooling
aims
drive
fabricating
functionalizing
ultimate
goal
expanding
fields.
