Journal of Materials Research and Technology,
Год журнала:
2023,
Номер
27, С. 1739 - 1763
Опубликована: Окт. 4, 2023
Nature
is
still
the
main
focus
of
scientific
and
technological
research,
particularly
in
nanotechnology
because
its
remarkable
properties;
has
acquired
much
interest
recent
years.
This
review
focuses
on
up-to-date
overview
classification
nanoparticles,
characterization,
methods
preparation,
characterization
application
nanoparticles.
Initial
section
gives
insight
various
techniques
for
synthesis
encompassing
both
bottom-up
top-down
approaches.
Different
nanoparticles
are
discussed
details.
Highlighting
importance
controlling
shape,
size,
composition
to
develop
enhance
properties
These
include
enhanced
surface
area,
unique
optical,
electronic,
magnetic
characteristics,
as
well
improved
mechanical
properties.
Understanding
these
attributes
essential
harnessing
different
applications
effectively.
Broad
spectrum
also
discussed.
Additionally,
have
found
catalysis,
environmental
remediation,
antimicrobial
coatings,
contributing
sustainable
development
protection.
Overall,
represent
a
progressive
area
research
with
tremendous
potential
innovation
societal
impact.
Our
evaluation
will
serve
solid
reference,
assisting
community
comprehend
topic
better
by
showing
role
each
technique
comparable
manner.
As
field
constantly
evolving,
this
incorporates
latest
developments,
advancements
up
time
publication.
A
comprehensive
understanding
their
properties,
decisive
realizing
full
industrial
domains.
Molecules,
Год журнала:
2023,
Номер
28(11), С. 4527 - 4527
Опубликована: Июнь 2, 2023
In
the
last
few
decades,
broad
scope
of
nanomedicine
has
played
an
important
role
in
global
healthcare
industry.
Biological
acquisition
methods
to
obtain
nanoparticles
(NPs)
offer
a
low-cost,
non-toxic,
and
environmentally
friendly
approach.
This
review
shows
recent
data
about
several
for
procuring
exhaustive
elucidation
biological
agents
such
as
plants,
algae,
bacteria,
fungi,
actinomycete,
yeast.
When
compared
physical,
chemical,
approaches
obtaining
nanoparticles,
approach
significant
advantages
non-toxicity
environmental
friendliness,
which
support
their
use
therapeutic
applications.
The
bio-mediated,
procured
not
only
help
researchers
but
also
manipulate
particles
provide
health
safety.
addition,
we
examined
biomedical
applications
antibacterial,
antifungal,
antiviral,
anti-inflammatory,
antidiabetic,
antioxidant,
other
medical
highlights
findings
current
research
on
bio-mediated
novel
NPs
scrutinizes
various
proposed
describe
them.
synthesis
from
plant
extracts
advantages,
including
bioavailability,
low
cost.
Researchers
have
sequenced
analysis
biochemical
mechanisms
enzyme
reactions
well
determination
bioactive
compounds
mediated
by
nanoparticle
acquisition.
is
primarily
concerned
with
collating
variety
disciplines
that
frequently
provides
new
clarifications
serious
problems.
Polymers,
Год журнала:
2023,
Номер
15(2), С. 440 - 440
Опубликована: Янв. 13, 2023
The
increase
in
the
population
rate
has
increased
demand
for
safe
and
quality
food
products.
However,
current
agricultural
system
faces
many
challenges
producing
vegetables
fruits.
Indiscriminate
use
of
pesticides
fertilizers,
deficiency
water
resources,
short
shelf
life
products
postharvest,
nontargeted
delivery
agrochemicals
are
main
challenges.
In
this
regard,
carboxymethyl
cellulose
(CMC)
is
one
most
promising
materials
agriculture
sector
minimizing
these
due
to
its
mechanical
strength,
viscosity,
wide
availability,
edibility
properties.
CMC
also
high
absorbency;
therefore,
it
can
be
used
(as
superabsorbent
hydrogels).
Due
hydroxyl
groups
on
surface,
substance
efficacy
removing
pollutants,
such
as
heavy
metals.
Enriching
coatings
with
additional
substances,
antimicrobial,
antibrowning,
antioxidant,
antisoftening
materials,
provide
further
novel
formulations
unique
advantages.
addition,
encapsulation
bioactive
or
provides
a
targeted
system.
This
review
presents
comprehensive
overview
applications
preserving
fruit
vegetable
quality,
remediating
pollution,
sources,
encapsulating
molecules
delivery.
Frontiers in Pharmacology,
Год журнала:
2023,
Номер
14
Опубликована: Июль 19, 2023
Various
nanoparticles
are
used
in
the
discovery
of
new
nanomedicine
to
overcome
shortages
conventional
drugs.
Therefore,
this
article
presents
a
comprehensive
and
up-to-date
review
effects
nanoparticle-based
drugs
treatment
respiratory
disorders,
including
both
basic
clinical
studies.
Databases,
PubMed,
Web
Knowledge,
Scopus,
were
searched
until
end
August
2022
regarding
effect
on
diseases.
As
tool,
offered
promising
applications
for
pulmonary
The
composition
intrinsic
characteristics
nanomaterials
showed
their
effectiveness
treating
efficiency
different
nanomedicines
has
been
demonstrated
experimental
animal
models
asthma,
chronic
obstructive
disease
(COPD),
fibrosis
(PF),
lung
cancer,
infection,
other
confirming
function
improvement
disorders.
types
nanomaterials,
such
as
carbon
nanotubes,
dendrimers,
polymeric
liposomes,
quantum
dots,
metal
oxide
nanoparticles,
have
therapeutic
which
may
lead
possible
remedies
various
illnesses
that
could
increase
drug
efficacy
decrease
side
effects.
This
review
explores
the
evolution
of
lipid-based
nanoparticles
(LBNPs)
for
drug
delivery
(DD).
Herein,
LBNPs
are
classified
into
liposomes
and
cell
membrane-based
(CMNPs),
each
with
unique
advantages
challenges.
Conventional
possess
drawbacks
such
as
poor
targeting,
quick
clearance,
limited
biocompatibility.
One
possible
alternatives
to
overcome
these
challenges
is
surface
modification
(NPs)
materials
polyethylene
glycol
(PEG),
aptamers,
antibody
fragments,
peptides,
CD44,
hyaluronic
acid,
folic
palmitic
lactoferrin.
Thus,
main
focus
this
will
be
on
different
modifications
that
enable
have
beneficial
properties
DD,
enhancing
mass
transport
properties,
immune
evasion,
improved
stability,
targeting.
Moreover,
various
CMNPs
explored
used
DD
derived
from
cells
red
blood
(RBCs),
platelets,
leukocytes,
cancer
cells,
stem
highlighting
their
natural
(e.g.,
biocompatibility
ability
evade
system).
discussion
extends
biomimicking
hybrid
NPs
accomplished
through
coating
synthetic
(mainly
polymeric)
membranes.
aims
provide
a
comprehensive
resource
researchers
recent
advances
in
field
CMNPs.
Overall,
provides
valuable
insights
dynamic
systems.
