Journal of Industrial Textiles,
Journal Year:
2024,
Volume and Issue:
54
Published: Jan. 1, 2024
Electrical
heated
clothing
(EHC)
is
a
revolutionary
concept
that
combines
garment
with
electrical
technology
to
create
garments
capable
of
actively
regulating
and
providing
warmth
the
wearer,
especially
for
elderly.
To
develop
an
EHC
elderly
both
aesthetics
functionality,
technique
knitted
Jacquard
employed
fabrics
Bluetooth
module
applied
realize
user
interaction
(UI)
design.
Firstly,
16
different
were
fabricated
by
choosing
silver-coated
yarns
patterns.
The
heating
temperatures
simulated,
actual
performance
was
observed
through
infrared
thermal
image.
Suitable
materials
patterns
selected
produce
EHC.
Secondly,
in
order
meet
demands
elderly,
prototype
developed
combining
characteristics
design
UI
After
PCBA,
temperature
time
can
be
adjusted
WeChat
mini-program
on
mobile
phone.
It
has
been
verified
meets
requirements.
This
study
serve
as
excellent
guide
advancement
wearables.
Polymers,
Journal Year:
2025,
Volume and Issue:
17(5), P. 628 - 628
Published: Feb. 26, 2025
The
growing
environmental
impact
of
textile
waste,
fueled
by
the
rapid
rise
in
global
fiber
production,
underscores
urgent
need
for
sustainable
end-of-life
solutions.
This
review
explores
cutting-edge
pathways
waste
management,
spotlighting
innovations
that
reduce
reliance
on
incineration
and
landfilling
while
driving
material
circularity.
It
highlights
advancements
collection,
sorting,
pretreatment
technologies,
as
well
both
established
emerging
recycling
methods.
Smart
collection
systems
utilizing
tags
sensors
show
great
promise
streamlining
logistics
automating
pick-up
routes
transactions.
For
automated
technologies
like
near-infrared
hyperspectral
imaging
lead
way
accurate
scalable
separation.
Automated
disassembly
techniques
are
effective
at
removing
problematic
elements,
though
other
pretreatments,
such
color
finish
removal,
still
to
be
customized
specific
streams.
Mechanical
is
ideal
textiles
with
strong
mechanical
properties
but
has
limitations,
particularly
blended
fabrics,
cannot
repeated
endlessly.
Polymer
recycling-through
melting
or
dissolving
polymers-produces
higher-quality
recycled
materials
comes
high
energy
solvent
demands.
Chemical
recycling,
especially
solvolysis
pyrolysis,
excels
breaking
down
synthetic
polymers
polyester,
potential
yield
virgin-quality
monomers.
Meanwhile,
biological
methods,
their
infancy,
natural
fibers
cotton
wool.
When
methods
not
viable,
gasification
can
used
convert
into
synthesis
gas.
concludes
future
hinges
integrating
sorting
advancing
solvent-based
chemical
technologies.
These
innovations,
supported
eco-design
principles,
progressive
policies,
industry
collaboration,
essential
building
a
resilient,
circular
economy.
Nano-Micro Letters,
Journal Year:
2025,
Volume and Issue:
17(1)
Published: Feb. 17, 2025
Abstract
Rapid
population
growth
in
recent
decades
has
intensified
both
the
global
energy
crisis
and
challenges
posed
by
climate
change,
including
warming.
Currently,
increased
frequency
of
extreme
weather
events
large
fluctuations
ambient
temperature
disrupt
thermal
comfort
negatively
impact
health,
driving
a
growing
dependence
on
cooling
heating
sources.
Consequently,
efficient
management
become
central
focus
research.
Traditional
systems
consume
substantial
energy,
further
contributing
to
greenhouse
gas
emissions.
In
contrast,
emergent
radiant
technologies
that
rely
renewable
have
been
proposed
as
sustainable
alternatives.
However,
achieving
year-round
without
additional
input
remains
formidable
challenge.
Recently,
dynamic
radiative
emerged
most
promising
solution,
offering
potential
for
energy-efficient
adaptation
across
seasonal
variations.
This
review
systematically
presents
advancements
management,
covering
fundamental
principles,
switching
mechanisms,
primary
materials,
application
areas.
Additionally,
key
hindering
broader
adoption
are
discussed.
By
highlighting
their
transformative
potential,
this
provides
insights
into
design
industrial
scalability
these
innovations,
with
ultimate
aim
promoting
integration
applications.
Advanced Sustainable Systems,
Journal Year:
2024,
Volume and Issue:
unknown
Published: July 23, 2024
Abstract
Smart
textiles
represent
a
revolutionary
approach
to
wearable
technology
with
applications
ranging
from
healthcare
energy
harvesting.
This
review
paper
explores
the
importance
of
textile
technologies
and
highlights
their
potential
revolutionize
consumer
electronics.
Conventional
are
sometimes
heavy,
lack
comfort
flexibility,
but
smart
seamlessly
integrate
into
everyday
clothing,
improving
wearability
user
experience.
The
article
emphasizes
need
for
sustainable
sourcing
environmentally
friendly
production
methods,
as
well
responsible
manufacturing
disposal
practices.
Manufacturing
techniques
such
wet
spinning,
melt
electrostatic
weaving,
knitting,
printing
detailed
shed
light
on
role
in
incorporating
electronics
textiles.
Several
textile‐based
devices
being
explored,
including
biochemical
sensing,
temperature
monitoring,
harvesting,
storage,
displays.
Each
application
demonstrates
versatility
different
areas.
Despite
optimistic
progress,
challenges
remain,
efficiency
protecting
privacy
data
security.
analyzes
these
problems
suggests
future
improvements,
interdisciplinary
collaboration
find
new
solutions.
Finally,
an
overview
current
state
provides
this
technology.
It
serves
in‐depth
reference
academics
readers
interested
understanding
recent
advances
discoveries
technologies,
highlighting
rapidly
growing
industry.
