Cellulose,
Год журнала:
2023,
Номер
30(14), С. 9027 - 9046
Опубликована: Авг. 4, 2023
Abstract
The
development
of
eco-friendly
materials
for
advanced
applications
is
highly
demanded.
current
study
focuses
on
the
preparation
conductive
membranes
based
tricarboxylic
cellulose
(TCC)
loaded
with
cubic
bismuth
sodium
titanate
(BNKT)
nanoceramics.
FTIR,
SEM,
and
EDX
analyses
confirm
presence
BNKT
membranes.
electrical
response
cellulose/xBNKT
(x
=
5,
10,
15,
20%
wt/wt)
membrane
investigated
using
impedance
spectroscopy.
real
part
(Z′)
imaginary
(Z″)
complex
are
studied
as
a
function
frequency
(4Hz
~
8MHz)
temperature
(20
160
°C)
different
compositions.
Impedance
modulus
studies
reveal
Debye-type
relaxation
phenomenon.
dielectric
manifest
promising
properties.
bactericidal
performance
all
nanomembranes
evaluated.
nanomembrane
(C20)
exhibits
activity
against
Gram-negative
Gram-positive
bacteria,
6
log
CFU
reductions
observed
after
an
exposure
time
180
min.
Treatment
C20
shows
highest
amounts
protein
efflux.
results
indicate
that
layer
eradicated
bacterial
cells.
findings
suggest
recommended
intelligent
innovative
antibacterial
nano-system
bio-applications.
International Journal of Biological Macromolecules,
Год журнала:
2024,
Номер
268, С. 131829 - 131829
Опубликована: Апрель 25, 2024
Nanocelluloses
exhibit
immense
potential
in
catalytic
and
biomedical
applications.
Their
unique
properties,
biocompatibility,
versatility
make
them
valuable
various
industries,
contributing
to
advancements
environmental
sustainability,
catalysis,
energy
conversion,
drug
delivery,
tissue
engineering,
biosensing/imaging,
wound
healing/dressings.
Nanocellulose-based
catalysts
can
efficiently
remove
pollutants
from
contaminated
environments,
sustainable
cleaner
ecosystems.
These
materials
also
be
utilized
as
carriers,
enabling
targeted
controlled
release.
high
surface
area
allows
for
efficient
loading
of
therapeutic
agents,
while
their
biodegradability
ensures
safer
gradual
release
within
the
body.
delivery
systems
enhance
efficacy
treatments
minimizes
side
effects.
Moreover,
nanocelluloses
serve
scaffolds
engineering
due
structural
integrity
biocompatibility.
They
provide
a
three-dimensional
framework
cell
growth
regeneration,
promoting
development
functional
biologically
relevant
tissues.
dressings
have
shown
great
promise
healing
dressings.
ability
absorb
exudates,
maintain
moist
environment,
promote
proliferation
migration
accelerates
process.
Herein,
recent
pertaining
applications
composites
are
deliberated,
focusing
on
important
challenges,
advantages,
limitations,
future
prospects.
Food Reviews International,
Год журнала:
2023,
Номер
40(4), С. 1069 - 1092
Опубликована: Май 5, 2023
Cellulose-based
coatings
have
good
coating-forming
properties,
and
their
applications
attracted
much
attention
for
tropical
fruits.
However,
reviews
of
coating
mechanical
properties
effects
on
the
fruit
are
limited.
This
article
cellulose-based
materials,
synthesis
functional
coatings,
incorporation
active
agents
into
material,
quality.
The
greater
hydrophilicity
carboxymethyl
cellulose
is
suitable
To
properly
preserve
quality
fruits,
it
crucial
to
choose
materials
according
physical
qualities.
Coating
characteristics
usefulness
can
be
enhanced
by
minimizing
adverse
physical,
chemical,
microbial
factors
when
bioactive
substances
included
or
encapsulated
material.
review
gives
more
understanding
in
selecting
an
appropriate
fruits
retain
prolong
shelf
life
without
deep
concern
food
loss
during
distribution,
storage,
at
retailers.
