Cuadernos de Educación y Desarrollo,
Год журнала:
2023,
Номер
15(12), С. 15360 - 15375
Опубликована: Дек. 8, 2023
This
paper
presents
a
method
for
the
controlled
reduction
of
silver
chloride
(AgCl)
by
D-(+)-Maltose
in
presence
poly(sodium
4-styrenesulfonate)
(PSS).
PSS,
acting
as
polyelectrolyte,
plays
crucial
role
process
accommodating
ions
(Ag+)
through
electrostatic
interactions
during
synthesis
and
stabilizing
resulting
nanoparticles
(AgNPs).
UV-Vis
spectra
revealed
distinct
absorption
bands
characteristic
AgNPs,
with
Ag-PSS
ratio
affecting
size
distribution
nanoparticles.
Dynamic
light
scattering
(DLS)
zeta
potential
measurements
confirmed
relationship
between
concentration
nanoparticle
uniformity.
Layer-by-Layer
(LbL)
deposition
nanohybrids
on
cotton
fabric
surfaces,
offering
unique
approach
modification.
Energy-Dispersive
X-ray
Spectroscopy
(EDS)
analysis
demonstrated
consistent
increase
content
an
bilayers.
Scanning
Electron
Microscopy
(SEM)
enhanced
fiber
roughness,
indicating
effective
nanohybrid
deposition.
Elemental
mapping
showcased
uniform
elemental
across
surface,
underscoring
precision
LbL
technique.
In
conclusion,
this
study
achieving
surface
modification
fibers
nanohybrids.
Results in Materials,
Год журнала:
2023,
Номер
20, С. 100448 - 100448
Опубликована: Сен. 15, 2023
Fiber
reinforced
polymer
composites
(FRPCs),
due
to
their
multifunctional
properties,
have
already
occupied
a
significant
place
in
various
applications
such
as
aerospace,
automotive,
marine,
structural
engineering,
and
healthcare
industries.
Lightweight
FRPCs
are
preferred
over
heavier
materials
because
of
some
key
advantages,
high
strength-to-weight
ratio,
corrosion
resistance,
design
flexibility,
fatigue
damping
electrical
thermal
insulation
properties.
Though
synthetic
fibers
carbon,
glass,
aramid
fiber
found
provide
better
performance,
these
expensive
well
impose
adverse
impacts
on
the
environment.
Currently,
bast
biocomposites
(BFBCs)
receiving
increasing
attention
biodegradability,
availability,
low
cost,
higher
ratio.
Researchers
working
rigorously
BFBCs
unveil
optimal
can
be
disposed
easily
without
affecting
BFBCs,
with
sustainable
biodegradable
notably
promote
use
natural
particularly
minimize
consumption
non-degradable
reinforcements
composite
industry.
This
paper
provides
an
overview
different
reinforcing
for
achieve
sustainability.
The
influence
fibrous
preforms
mechanical
behavior
prospects
comprehensively
reviewed.
Polymer Composites,
Год журнала:
2023,
Номер
44(11), С. 7317 - 7349
Опубликована: Авг. 21, 2023
Abstract
Bast
fibers
such
as
flax,
hemp,
and
jute‐reinforced
polymer
composites
due
to
their
exceptional
properties
are
gaining
significant
demand
a
sustainable
cost‐effective
alternative
conventional
synthetic
fiber‐reinforced
composites.
This
comprehensive
study
aims
shed
light
on
the
potential
of
bast
fiber
reinforced
(BFRCs)
innovative
materials
for
various
industrial
applications.
The
manuscript
presents
discussion
fibers,
matrices,
fabrication
techniques
employed
produce
BFPCs,
highlighting
effects
different
modification
resulting
mechanical
properties.
Industrial
structural
applications
BFPCs
explored,
with
specific
focus
use
in
automotive
aerospace
industries,
construction
materials,
sporting
goods.
Finally,
concludes
challenges
future
prospects
BFPCs.
can
serve
valuable
resource
researchers,
engineers,
professionals
interested
emerging
field
It
opens
new
frontiers
material
design
highlights
enormous
revolutionize
through
Highlights
Materials
processing
nanocomposites.
Exploration
matrix
techniques.
Recent
advances
Ashby
charts
illustrate
comparative
analysis.
Advanced Materials Interfaces,
Год журнала:
2023,
Номер
11(7)
Опубликована: Дек. 5, 2023
Abstract
With
the
advent
of
wearable
electronics,
urge
to
devise
new
and
flexible
energy
storage
devices
power
up
systems
has
steadily
risen
over
past
few
decades.
Wearable
fabric‐based
supercapacitors
have
emerged
as
a
fantastic
solution
for
powering
these
systems.
Functionalizing
fabric
surfaces
with
electroactive
materials
proven
be
ideal
way
fabricate
high‐performance
supercapacitors.
In
this
review,
recent
progress
in
functional
is
summarized.
The
article
begins
introduction
different
structures
outlining
implemented
emphasis
shifts
toward
summarizing
fabrication
electrodes
according
architectures.
Then,
novel
supercapacitor
configurations,
current
state
integration,
durability
such
are
analyzed.
review
concluded
by
emphasizing
existing
drawbacks,
envisaging
potential
applications,
and,
most
importantly,
future
perspective
technology.
International Journal of Clothing Science and Technology,
Год журнала:
2024,
Номер
36(6), С. 961 - 1003
Опубликована: Авг. 3, 2024
Purpose
Nanotechnology
(NT)
advancements
in
personal
protective
textiles
(PPT)
or
equipment
(PPE)
have
alleviated
spread
and
transmission
of
this
highly
contagious
viral
disease,
enabled
enhancement
PPE,
thereby
fortifying
antiviral
behavior.
Design/methodology/approach
Review
a
series
state
the
art
research
papers
on
subject
matter.
Findings
This
paper
expounds
novel
nanotechnological
polymeric
textile
composites,
emerging
applications
fight
against
COVID-19
pandemic.
Research
limitations/implications
As
panacea
to
“public
droplet
prevention,”
proven
be
potentially
effective
as
environmental
barriers
(EDBs).
Practical
implications
PPT
form
healthcare
materials
including
surgical
face
masks
(SFMs),
gloves,
goggles,
respirators,
gowns,
uniforms,
scrub-suits
other
apparels
play
critical
role
hindering
spreading
“oral-respiratory
contamination”
both
within
outside
hospitals.
Social
When
used
double-layers,
display
effectiveness
SFMs
surgical-fabrics,
which
reduces
<10
cm,
circumference
∼0.3%.
Originality/value
NT
through
nanoparticles,
sensor
integration
enhanced
versatile
sensory
capabilities,
robotics,
flame
retardancy,
self-cleaning,
electrical
conductivity,
flexibility
comfort,
availing
it
for
health,
medical,
sporting,
advanced
engineering,
pharmaceuticals,
aerospace,
military,
automobile,
food
agricultural
applications,
more.
Therefore,
recently
trends
influence
engineering
