Deleted Journal,
Journal Year:
2025,
Volume and Issue:
2(2)
Published: Jan. 13, 2025
This
review
examines
the
potential
of
nanomaterials
in
revolutionizing
food
packaging,
focusing
on
their
role
enhancing
barrier
properties
and
extending
shelf
life
packaged
foods.
Traditional
packaging
materials
often
fall
short
effectively
protecting
against
oxygen,
moisture,
UV
light,
resulting
diminished
quality
shorter
life.
Nanomaterials,
including
nanoclays,
metal
oxide
nanoparticles
(e.g.,
ZnO,
TiO₂),
carbon-based
graphene,
carbon
nanotubes),
biodegradable
options
like
cellulose
nanocrystals,
have
emerged
as
promising
solutions.
These
offer
exceptional
gas
moisture
properties,
antimicrobial
effects,
protection
capabilities.
The
provides
an
in-depth
exploration
various
nanomaterials,
highlighting
distinctive
mechanisms;
such
tortuosity
which
enhance
performance
by
limiting
permeability.
It
also
discusses
recent
advancements
integrating
into
both
flexible
rigid
systems,
well
active
intelligent
that
employs
nanosensors
for
real-time
monitoring
freshness
spoilage.
Despite
potential,
challenges
toxicity
concerns,
environmental
impacts,
economic
constraints
to
large-scale
adoption
are
addressed.
emphasizes
need
future
research
dual-function
can
simultaneously
improve
enable
sensing.
innovations
could
transform
technologies,
promoting
enhanced
safety
sustainability.
Polymers,
Journal Year:
2022,
Volume and Issue:
14(5), P. 983 - 983
Published: Feb. 28, 2022
Biopolymers
are
a
leading
class
of
functional
material
suitable
for
high-value
applications
and
great
interest
to
researchers
professionals
across
various
disciplines.
Interdisciplinary
research
is
important
understand
the
basic
applied
aspects
biopolymers
address
several
complex
problems
associated
with
good
health
well-being.
To
reduce
environmental
impact
dependence
on
fossil
fuels,
lot
effort
has
gone
into
replacing
synthetic
polymers
biodegradable
materials,
especially
those
derived
from
natural
resources.
In
this
regard,
many
types
or
have
been
developed
meet
needs
ever-expanding
applications.
These
currently
used
in
food
expanding
their
use
pharmaceutical
medical
industries
due
unique
properties.
This
review
focuses
uses
industry
provides
future
outlook
biopolymer
industry.
Frontiers in Pharmacology,
Journal Year:
2021,
Volume and Issue:
12
Published: Feb. 3, 2021
Advances
in
nanotechnology
have
favored
the
development
of
novel
colloidal
formulations
able
to
modulate
pharmacological
and
biopharmaceutical
properties
drugs.
The
peculiar
physico-chemical
technological
nanomaterial-based
therapeutics
allowed
for
several
successful
applications
treatment
cancer.
size,
shape,
charge
patterning
nanoscale
therapeutic
molecules
are
parameters
that
need
be
investigated
modulated
order
promote
optimize
cell
tissue
interaction.
In
this
review,
use
polymeric
nanoparticles
as
drug
delivery
systems
anticancer
compounds,
their
ability
efficiently
localized
specific
tumor
tissues
been
described.
nanoencapsulation
antitumor
active
compounds
is
a
promising
approach
improve
efficacy
various
treatments.
Nanomaterials,
Journal Year:
2022,
Volume and Issue:
12(3), P. 457 - 457
Published: Jan. 28, 2022
In
the
last
few
decades,
vast
potential
of
nanomaterials
for
biomedical
and
healthcare
applications
has
been
extensively
investigated.
Several
case
studies
demonstrated
that
can
offer
solutions
to
current
challenges
raw
materials
in
fields.
This
review
describes
different
nanoparticles
nanostructured
material
synthesis
approaches
presents
some
emerging
biomedical,
healthcare,
agro-food
applications.
focuses
on
various
nanomaterial
types
(e.g.,
spherical,
nanorods,
nanotubes,
nanosheets,
nanofibers,
core-shell,
mesoporous)
be
synthesized
from
their
bioimaging,
biosensing,
drug
delivery,
tissue
engineering,
antimicrobial,
agro-foods.
Depending
morphology
size,
aspect
ratio,
geometry,
porosity),
used
as
formulation
modifiers,
moisturizers,
nanofillers,
additives,
membranes,
films.
As
toxicological
assessment
depends
sizes
morphologies,
stringent
regulation
is
needed
testing
efficient
dosages.
The
perspectives
an
industrial
breakthrough
are
related
optimization
production
processing
conditions.
Heliyon,
Journal Year:
2021,
Volume and Issue:
8(1), P. e08674 - e08674
Published: Dec. 24, 2021
Recently,
multifunctional
drug
delivery
systems
(DDSs)
have
been
designed
to
provide
a
comprehensive
approach
with
multiple
functionalities,
including
diagnostic
imaging,
targeted
delivery,
and
controlled
release.
Chitosan-based
nanoparticles
(CSNPs)
are
employed
as
imaging
delivering
the
particular
sites
in
regulated
manner.
Drug
release
is
an
important
factor
ensuring
high
reproducibility,
stability,
quality
control
of
CSNPs,
scientific-based
for
developing
CSNPs.
Several
factors
influence
from
composition,
composition
ratio,
ingredient
interactions,
preparation
methods.
Early,
CSNPs
were
used
improving
solubility,
pharmacokinetics,
pharmacotherapeutics
properties.
Chitosan
has
developed
toward
system
by
exploring
positively
charged
properties
modifiable
functional
groups.
Various
modifications
polymer
backbone,
charge,
or
groups
will
undoubtedly
affect
The
significant
on
its
therapeutic
actions.
Our
review's
objective
was
summarize
discuss
relationship
between
modification
kinetics
model.
Kinetic
models
help
describe
rate,
leading
increased
efficiency,
accuracy,
safety
dose,
optimizing
device's
design,
evaluating
improvement
patient
compatibility.
In
conclusion,
almost
all
showed
bi-phasic
release,
initial
burst
time
followed
manner
achieving
expected
stimuli
external
can
be
applied.
promising
technique
systems.
Pharmaceutics,
Journal Year:
2020,
Volume and Issue:
12(7), P. 630 - 630
Published: July 4, 2020
The
new
era
of
nanotechnology
has
produced
advanced
nanomaterials
applicable
to
various
fields
medicine,
including
diagnostic
bio-imaging,
chemotherapy,
targeted
drug
delivery,
and
biosensors.
Various
materials
are
formed
into
nanoparticles,
such
as
gold
nanomaterials,
carbon
quantum
dots,
liposomes.
have
been
functionalized
widely
used
because
they
biocompatible
easy
design
prepare.
This
review
mainly
focuses
on
responsive
the
external
stimuli
in
drug-delivery
systems.
To
overcome
drawbacks
conventional
therapeutics
a
tumor,
dual-
multi-responsive
behaviors
nanoparticles
harnessed
improve
efficiency
from
delivery
point
view.
Issues
future
research
related
these
nanomaterial-based
sensitivities
scope
stimuli-responsive
systems
for
nanomedicine
applications
discussed.
ACS Nano,
Journal Year:
2021,
Volume and Issue:
15(11), P. 17080 - 17123
Published: Oct. 26, 2021
Cell
membrane-coated
(CMC)
mimics
are
micro/nanosystems
that
combine
an
isolated
cell
membrane
and
a
template
of
choice
to
mimic
the
functions
cell.
The
design
exploits
its
physicochemical
biological
properties
for
therapeutic
applications.
demonstrate
excellent
compatibility,
enhanced
biointerfacing
capabilities,
physical,
chemical,
tunability,
ability
retain
cellular
properties,
immune
escape,
prolonged
circulation
time,
protect
encapsulated
drug
from
degradation
active
targeting.
These
ease
adapting
them
personalized
clinical
medicine
have
generated
significant
research
interest
over
past
decade.
This
review
presents
detailed
overview
recent
advances
in
development
mimics.
primary
focus
is
collate
discuss
components,
fabrication
methodologies,
significance
physiochemical
characterization
techniques
validating
CMC
mimic.
We
present
critical
analysis
two
main
components
mimics:
mapped
their
use
scenarios.
In
addition,
we
emphasized
on
challenges
associated
with
translation.
Overall,
this
up
date
toolbox
researchers
can
benefit
while
designing
characterizing
Journal of Nanobiotechnology,
Journal Year:
2022,
Volume and Issue:
20(1)
Published: Aug. 31, 2022
Abstract
The
rapid
advancement
of
nanomedicine
and
nanoparticle
(NP)
materials
presents
novel
solutions
potentially
capable
revolutionizing
health
care
by
improving
efficacy,
bioavailability,
drug
targeting,
safety.
NPs
are
intriguing
when
considering
medical
applications
because
their
essential
unique
qualities,
including
a
significantly
higher
surface
to
mass
ratio,
quantum
properties,
the
potential
adsorb
transport
drugs
other
compounds.
However,
must
overcome
or
navigate
several
biological
barriers
human
body
successfully
deliver
at
precise
locations.
Engineering
carrier
biointerface
can
help
main
optimize
delivery
in
more
personalized
manner.
This
review
discusses
significant
heterogeneous
how
engineering
promote
carriers
prevail
over
hurdles
manner,
thus
ushering
era
Precision
Medicine.
We
also
summarize
nanomedicines'
current
advantages
disadvantages
administration,
from
natural/synthetic
sources
clinical
applications.
Additionally,
we
explore
innovative
NP
designs
used
both
non-personalized
customized
as
well
they
attain
therapeutic
strategy.
