Advanced Sustainable Systems,
Год журнала:
2024,
Номер
unknown
Опубликована: Июль 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.
Nature Communications,
Год журнала:
2024,
Номер
15(1)
Опубликована: Янв. 2, 2024
Abstract
Natural
structural
materials
often
possess
unique
combinations
of
strength
and
toughness
resulting
from
their
complex
hierarchical
assembly
across
multiple
length
scales.
However,
engineering
such
well-ordered
structures
in
synthetic
via
a
universal
scalable
manner
still
poses
grand
challenge.
Herein,
simple
yet
versatile
approach
is
proposed
to
design
hierarchically
structured
hydrogels
by
flow-induced
alignment
nanofibrils,
without
high
time/energy
consumption
or
cumbersome
postprocessing.
Highly
aligned
fibrous
configuration
densification
are
successfully
achieved
anisotropic
under
ambient
conditions,
desired
mechanical
properties
damage-tolerant
architectures,
for
example,
14
±
1
MPa,
154
13
MJ
m
−3
,
fracture
energy
153
8
kJ
−2
.
Moreover,
hydrogel
mesoporous
framework
can
deliver
ultra-fast
unidirectional
water
transport
(maximum
speed
at
65.75
mm
s
−1
),
highlighting
its
potential
purification.
This
fabrication
explores
promising
strategy
developing
bioinspired
hydrogels,
facilitating
practical
applications
biomedical
fields.
National Science Review,
Год журнала:
2024,
Номер
11(10)
Опубликована: Июнь 12, 2024
ABSTRACT
Owing
to
the
intrinsic
excellent
mechanical,
electrical,
and
thermal
properties
of
carbon
nanotubes
(CNTs),
nanotube
fibers
(CNTFs)
have
been
expected
become
promising
candidates
for
next-generation
high-performance
fibers.
They
received
considerable
interest
cutting-edge
applications,
such
as
ultra-light
electric
wire,
aerospace
craft,
military
equipment,
space
elevators.
Wet-spinning
is
a
broadly
utilized
commercial
technique
fiber
manufacturing.
Thus,
compared
with
array
spinning
from
drawable
CNTs
vertical
direct
dry
floating
catalyst
chemical
vapor
deposition
(FCCVD),
wet-spinning
considered
be
strategy
realize
production
CNTFs
on
large
scale.
In
this
tutorial
review,
we
begin
summative
description
process.
Then,
discuss
high-concentration
dope
preparation
strategies
corresponding
non-covalent
adsorption/charge
transfer
mechanisms.
The
filament
solidification
during
coagulation
process
another
critical
procedure
determining
configurations
derived
CNTFs.
Next,
post-treatment,
including
continuous
drafting
annealing,
further
optimize
orientation
compact
configuration.
Finally,
summarize
physical
property-structure
relationship
give
insights
performance
promotion
in
order
satisfy
prerequisite
detailed
application.
Insights
into
propelling
lab-scale
industry-scale
are
proposed,
anticipation
novel
having
an
impact
our
lives
near
future.
International Materials Reviews,
Год журнала:
2024,
Номер
unknown
Опубликована: Сен. 10, 2024
Alginate
has
gained
extensive
attention
due
to
its
versatile
properties
and
numerous
applications
in
different
fields.
Due
the
abundant
availability
of
raw
alginate
nature
advantage
being
easily
recycled,
alginate-based
materials
are
conducive
advancing
shift
away
from
an
economy
dependent
on
fossil
fuels
a
more
environmentally
friendly
sustainable
one.
In
addition,
inherent
biocompatibility
makes
fascinating
biomedical
material.
This
comprehensive
review
presents
detailed
analysis
alginate,
focusing
structural
characteristics,
physicochemical
biological
properties,
current
processing
technologies,
modification
strategies.
explores
diverse
biomedicine
healthcare,
considering
drug
delivery
systems,
tissue
engineering,
wound
dressings.
Additionally,
this
looks
into
environmental
biosensors
waste-water
treatment.
The
challenges
associated
with
utilization
future
perspectives
for
research
development
also
presented.
provides
overview
offering
valuable
insights
applications,
potential
across
various
industries.
