Characterization and Application of Nanomaterials,
Год журнала:
2023,
Номер
6(2), С. 4870 - 4870
Опубликована: Дек. 26, 2023
This
state-of-the-art
overview
emphasizes
electrospinning
technique
and
resulting
electrospun
nanofibers
nanofibrous
membranes.
Consequently,
the
method
as
well
formation
features
of
nanofiber/membrane
nanomaterials
have
been
described.
Properties
found
to
be
enhanced
several
folds
through
incorporation
carbon
nanoparticles
in
nanofibers.
Important
properties
utilizations
nanocomposite
were
seemed
affected
by
nanoparticle
amount
dispersal.
Importantly,
diameter,
microstructure,
physical
(thermal,
mechanical,
conductive,
etc.)
membranes
can
nanofiller
behavior.
The
high
performance
used
form
efficient
Sequentially,
applied
technical
membrane
applications.
Nanoscale,
Год журнала:
2024,
Номер
16(13), С. 6383 - 6401
Опубликована: Янв. 1, 2024
With
the
goal
of
sustainable
development,
manufacturing
continuous
high-performance
fibers
based
on
resources
is
an
emerging
research
direction.
However,
compared
to
traditional
synthetic
fibers,
plant
have
limited
length/diameter
and
uncontrollable
natural
defects,
while
regenerated
cellulose
such
as
viscose
Lyocell
suffer
from
inferior
mechanical
properties.
Wet-spun
nanocelluloses
especially
nanofibrils
(CNFs)
offer
superior
performance
since
CNFs
are
fundamental
building
blocks
cell
walls.
This
review
aims
summarize
progress
making
CNF
wet-spun
emphasizing
whole
wet
spinning
process
including
suspension
preparation,
spinning,
coagulation,
washing,
drying
post-stretching
steps.
By
establishing
relationships
between
nano-scale
assembling
structure
macroscopic
changes
in
dope
gels
dried
effective
methods
strategies
improve
properties
final
analyzed
proposed.
Based
this,
opportunities
challenges
for
potential
industrial-scale
production
discussed.
Journal of Functional Biomaterials,
Год журнала:
2024,
Номер
15(11), С. 348 - 348
Опубликована: Ноя. 16, 2024
Regenerated
cellulose
fibers
are
a
highly
adaptable
biomaterial
with
numerous
medical
applications
owing
to
their
inherent
biocompatibility,
biodegradability,
and
robust
mechanical
properties.
In
the
domain
of
wound
care,
regenerated
facilitate
moist
environment
conducive
healing,
minimize
infection
risk,
adapt
topographies,
making
it
ideal
for
different
types
dressings.
tissue
engineering,
scaffolds
provide
matrix
cell
attachment
proliferation,
supporting
development
artificial
skin,
cartilage,
other
tissues.
Furthermore,
fibers,
used
as
absorbable
sutures,
degrade
within
body,
eliminating
need
removal
proving
advantageous
internal
suturing.
The
textile
industry
relies
heavily
on
because
unique
properties
that
make
them
suitable
various
applications,
including
surgical
garments,
diagnostic
materials.
produced
by
dissolving
from
natural
sources
reconstituting
into
fiber
form,
which
can
be
customized
specific
uses.
This
paper
will
explore
types,
properties,
in
contexts,
alongside
an
examination
its
manufacturing
processes
technologies,
well
associated
challenges.
Fibers,
Год журнала:
2024,
Номер
12(9), С. 75 - 75
Опубликована: Сен. 16, 2024
Increasing
economic
and
environmental
concerns
arising
from
the
extensive
exploration
dependence
on
fossil
fuel-based
materials
have
encouraged
search
for
eco-friendly
alternatives.
Fibers
based
biomass-derived
been
attracting
growing
interest.
Among
other
features,
mechanical
performance
of
bio-based
fibers
needs
to
be
improved
effectively
compete
with
their
counterparts
emerge
as
viable
substitutes.
This
review
presents
scientific
advancements
in
development
naturally
derived
fibers,
strategies
production
tailored
properties.
The
potential
natural
precursor-based
conversion
into
high-performance
carbon
is
also
emphasized.
Studies
reporting
properties
developed
by
wet
spinning
are
identified,
analyzed,
discussed.
These
studies
show
that
cellulose
most
studied
material,
while
Ioncell
technology
identified
suitable
method
producing
cellulose-based
highest
tensile
strength.
demonstrated
silk
fibroin
exhibits
strength
elongation
at
break
ranging
300
600
MPa
30
50%.
Although
several
novel
processes
explored,
there
still
challenges
need
addressed
become
feasible
options,
boost
usage
across
industries.
ChemEngineering,
Год журнала:
2024,
Номер
8(6), С. 112 - 112
Опубликована: Ноя. 4, 2024
The
agriculture
and
agri-food
sectors
produce
substantial
amounts
of
plant-based
waste.
This
waste
presents
an
identifiable
research
opportunity
to
develop
methods
for
effectively
eliminating
managing
it
in
order
promote
zero-waste
circular
economies.
Plant-based
by-products
are
acknowledged
as
valuable
sources
bioactive
compounds,
including
cellulose
fibers.
Direct
application
these
fibers
non-food
such
textiles
can
reduce
the
environmental
impact
secondary
raw
materials.
review
aims
provide
overview
novel
concepts
modern
technologies
efficiently
utilizing
from
agricultural
agro-industrial
extract
a
variety
final
applications,
fashion
industry.
Two
major
routes
identified
fibers:
extraction
purification
natural
pulp
that
is
further
processed
into
manmade
cellulosic
Scalability
experimental
results
at
laboratory
or
pilot
level
barrier,
so
critical
closed-loop
processes,
apply
standardization
protocols,
conduct
life
cycle
assessments
techno-economic
analyses
facilitate
large-scale
implementation.
