Applied Sciences,
Journal Year:
2023,
Volume and Issue:
13(18), P. 10489 - 10489
Published: Sept. 20, 2023
According
to
ISO/TR
23383,
smart
textiles
reversibly
interact
with
their
environment
and
respond
or
adapt
changes
in
the
environment.
The
present
review
bibliometric
analysis
was
performed
on
5810
documents
(1989–2022)
from
Scopus
database,
using
VOSviewer
Bibliometrix/Biblioshiny
for
science
mapping.
results
show
that
field
of
is
highly
interdisciplinary
dynamic,
an
average
growth
rate
22%
exponential
last
10
years.
Beeby,
S.P.,
Torah,
R.N.
have
published
highest
number
papers,
while
Wang,
Z.L.
has
citations.
leading
journals
are
Sensors,
ACS
Applied
Materials
Interfaces,
Textile
Research
Journal,
Advanced
China
country
most
publications
extensive
cooperative
relationships
other
countries.
largely
concerned
new
materials
technologies,
particularly
relation
electronic
textiles.
Recent
research
focuses
energy
generation
(triboelectric
nanogenerators,
thermoelectrics,
Joule
heating),
conductive
(MXenes,
liquid
metal,
silver
nanoparticles),
sensors
(strain
sensors,
self-powered
gait
analysis),
speciality
products
(artificial
muscles,
soft
robotics,
EMI
shielding),
advanced
properties
(self-powered,
self-cleaning,
washable,
sustainable
textiles).
Advanced Functional Materials,
Journal Year:
2024,
Volume and Issue:
34(36)
Published: April 12, 2024
Abstract
2D
transition
metal
carbide/nitride
(MXene)
show
significant
potential
for
fabricating
flexible
wearables
due
to
its
outstanding
electroactive
characteristic.
However,
the
complex
processes
in
rheology
regulation
and
easy
agglomeration
of
MXene
nanosheets
hinder
their
applications
as
inks
homogeneous
printing
coating.
Herein,
an
gel‐ink
with
a
low
concentration
(20
mg
mL
−1
)
using
poly(3,4‐ethylenedioxythiophene):poly(sodium
4‐styrenesulfonate)
(PEDOT:PSS)
dopant
conductive
binder
is
developed.
The
dopamine‐involved
modification
PEDOT:PSS
doping
together
promote
formation
ordered
lamellar
structure
nanosheets,
turn
can
regulate
interconnected
electronic
PEDOT:PSS,
which
enables
from
micellar
linear
structures.
Through
adjusting
combination
ratio
dopamine‐modified
(MD)
viscosity
(MDP)
tunable
within
1–10
4
Pa·s
realize
scalable
other
processing.
Screen‐printing
MDP
endows
textiles
excellent
stability
while
retaining
inherent
wearability
original
fabric.
With
high
conductivity
(109.6
S
m
mid‐infrared
emissivity
(0.34),
decorated
exhibit
remarkable
multi‐protective
abilities.
This
work
provides
novel
strategy
formulating
versatile
that
will
facilitate
large‐scale
fabrication
high‐performance
personal
wearable
textiles.
Advanced Materials,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 5, 2025
Textiles
have
played
a
pivotal
role
in
human
development,
evolving
from
basic
fibers
into
sophisticated,
multifunctional
materials.
Advances
material
science,
nanotechnology,
and
electronics
propelled
next-generation
textiles
beyond
traditional
functionalities,
unlocking
innovative
possibilities
for
diverse
applications.
Thermal
management
incorporate
ultralight,
ultrathin
insulating
layers
adaptive
cooling
technologies,
optimizing
temperature
regulation
dynamic
extreme
environments.
Moisture
utilize
advanced
structures
unidirectional
transport
breathable
membranes,
ensuring
exceptional
comfort
activewear
outdoor
gear.
Protective
exhibit
enhanced
features,
including
antimicrobial,
antiviral,
anti-toxic
gas,
heat-resistant,
radiation-shielding
capabilities,
providing
high-performance
solutions
healthcare,
defense,
hazardous
industries.
Interactive
integrate
sensors
monitoring
physical,
chemical,
electrophysiological
parameters,
enabling
real-time
data
collection
responses
to
various
environmental
user-generated
stimuli.
Energy
leverage
triboelectric,
piezoelectric,
hygroelectric
effects
improve
energy
harvesting
storage
wearable
devices.
Luminous
display
textiles,
electroluminescent
fiber
optic
systems,
enable
visual
applications
fashion
communication.
These
advancements
position
at
the
forefront
of
materials
significantly
expanding
their
potential
across
wide
range
Over
the
past
decade,
nanotechnology
has
gained
considerable
attention
among
academia
and
industry
professionals,
playing
a
pivotal
role
in
advancing
this
sector.
Chemical
functionalization
of
textiles
using
ushered
an
era
advanced
materials
with
superior
properties
functionalities.
This
Review
delves
into
current
progress
future
prospects
rapidly
evolving
field,
focusing
on
key
advancements
such
as
antimicrobial
properties,
UV
protection,
self-cleaning
capabilities,
enhanced
mechanical
strength,
smart
textiles.
provides
comprehensive
overview
15
years
functional
nanotechnology.
Several
types
nanomaterials
based
their
dimensions
functionalities
have
been
discussed
summarized.
Fabrication
techniques
electrospinning,
coating
technologies,
printing
methods
enabled
integration
textiles,
offering
benefits
like
improved
durability,
functionality.
While
brought
about
significant
positive
environmental
impacts
by
enhancing
textile
functionality,
there
are
also
concerns
regarding
potential
adverse
due
to
nanomaterial
leaching.
The
highlights
collaborative
efforts
professionals
developing
mitigation
strategies
exploration
biodegradable
nanomaterials,
which
being
used
address
these
challenges,
reassuring
audience
industry.
Chemical Society Reviews,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 1, 2025
Bioinspired
fluid
manipulating
interfaces
possessing
special
wettability,
an
asymmetric
structure,
and
a
geometric
gradient
were
systematically
reviewed,
including
history,
classification,
mechanisms,
fabrication
applications.
Deleted Journal,
Journal Year:
2025,
Volume and Issue:
7(1)
Published: Jan. 3, 2025
The
functionalization
of
textiles
through
grafting
modification
has
emerged
as
a
promising
approach,
offering
bright
future
for
the
textile
industry.
This
process
involves
covalent
attachment
functional
polymers
to
substrates,
imparting
desirable
properties
such
hydrophobicity,
antimicrobial
activity,
UV
resistance,
drug
delivery
capabilities,
flame
and
improved
dyeability.
Various
techniques,
including
chemical,
plasma-induced,
radiation-induced
grafting,
have
been
explored
achieve
these
modifications.
review
highlights
advancements
in
methods,
selecting
suitable
agents,
resulting
conferred
on
textiles.
discussion
also
addresses
environmental
economic
aspects
modification,
emphasizing
sustainable
practices
applications.
integration
into
manufacturing
processes
offers
significant
opportunities
developing
high-performance
with
tailored
functionalities,
meeting
evolving
demands
consumers
industries.
constant
evolution
adaptation
meet
keeps
our
industry
vibrant
engaging.
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
