Advanced Materials Technologies,
Год журнала:
2023,
Номер
8(19)
Опубликована: Июль 23, 2023
Abstract
With
the
widespread
utilization
of
many
radiation
instruments,
people
are
inadvertently
suffering
from
damage.
But
nowadays,
there
is
still
a
lack
lightweight,
comfortable,
and
efficient
wearable
radiation‐proof
multifunctional
composite
fibrous
membranes
in
people's
lives.
To
solve
this
problem,
green
radiation‐resistant
nanofibrous
membrane
consisting
cellulose
fluorescent
particles
(CFP),
ZnO‐Bi
2
O
3
nanoparticles,
polyacrylonitrile
(PAN)
solution
prepared
by
an
electrospinning
technology.
The
microscopic
characterization
shows
that
nanoparticles
uniformly
dispersed
on
surface
membrane,
forming
dense
structure.
PAN/CFP/ZnO‐Bi
exhibits
not
only
excellent
ultraviolet(UV)
interception
with
ultraviolet
protection
factor
value
337.99
±
83.67,
but
also
strong
shielding
effect
low‐energy
X‐rays.
Simultaneously,
it
can
photocatalytically
degrade
88.17%
methylene
blue
within
150
min,
remove
94.16
0.96%
Escherichia
coli
99.07
0.59%
Staphylococcus
aureus
h
under
dark
incubation
kill
all
bacteria
light.
adhesion,
growth,
proliferation
bone
marrow
mesenchymal
stem
cells
confirm
its
low
cytotoxicity
good
biosafety.
Thus,
could
be
expected
to
used
daily
life
products
such
as
UV
X‐rays
protective
clothing.
Advanced Functional Materials,
Год журнала:
2023,
Номер
33(33)
Опубликована: Май 1, 2023
Abstract
Benefiting
from
inherent
lightweight,
flexibility,
and
good
adaptability
to
human
body,
functional
textiles
are
attracting
tremendous
attention
cope
with
wearable
issues
in
sustainable
applications
around
beings.
In
this
feature
article,
a
comprehensive
thoughtful
review
is
proposed
regarding
research
activities
of
smart
properties.
Specifically,
brief
exposition
highlighting
the
significance
rising
demands
novel
throughout
society
begun.
Next,
systematic
provided
about
fabrication
1D
spinning,
2D
modification,
3D
construction,
their
diverse
functionality
as
well
applications,
showing
clear
picture
evolved
readers.
How
engineer
compositions,
structures,
properties
elaborated
achieve
different
All
these
tunable,
upgraded,
versatile
make
developed
suited
for
extensive
ranging
environmental
monitoring
or
freshwater
access
personal
protection
power
supply.
Finally,
simple
summary
critical
analysis
drawn,
emphasis
on
insight
into
remaining
challenges
future
directions.
With
worldwide
efforts,
advance
breakthrough
textile
functionalization
expounded
will
promote
revolution
intelligence
era.
ACS Applied Nano Materials,
Год журнала:
2023,
Номер
7(1), С. 1222 - 1232
Опубликована: Дек. 29, 2023
The
wearing
comfort
of
fabrics
is
strongly
related
to
moisture
permeability
and
thermal
insulation.
To
enhance
comfort,
the
localized
surface
plasmon
resonance
(LSPR)
effect
applied
on
cotton
by
densely
packed
hybrid
nanogels
containing
gold
nanoparticles
surface.
are
prepared
emulsion
polymerization
using
di(ethylene
glycol)
methyl
ether
methacrylate
(MEO2MA),
(ethylene
(OEGMA300),
ethylene
glycol
(EGMA)
as
monomers.
Because
different
transition
temperatures
MEO2MA
(25
°C)
OEGMA300
(60
°C),
obtained
present
a
linear
shrinkage
behavior
between
20
50
°C.
Further
treated
with
in
situ
reduction,
(Au
NPs)
embedded
nanogels.
After
cross-linking
onto
exposure
visible
light
irradiation
(0.1029
W),
ratio
cross-linked
(weight
gain
ratio,
WGR
8%)
at
30
°C
that
1.67.
It
45%
better
than
pure
without
any
Au
NPs.
When
increased
15%,
up
2.18,
thereby
almost
doubling
Such
improvement
caused
LSPR
from
fabric,
which
induces
more
efficient
photothermal
conversion
prominent
In
addition,
because
NPs
can
well
absorb
irradiation,
able
efficiently
shield
incident
good
capability
heat
Therefore,
adjust
their
according
external
conditions,
suited
for
outdoor
scenarios
such
running
hiking.
