International Journal of Molecular Sciences,
Journal Year:
2024,
Volume and Issue:
25(6), P. 3082 - 3082
Published: March 7, 2024
The
circular
economy,
which
attempts
to
decrease
agricultural
waste
while
also
improving
sustainable
development
through
the
production
of
products
from
and
by-products,
is
currently
one
main
objectives
environmental
research.
Taking
this
view,
study
used
a
green
approach
synthesize
two
forms
silver
nanoparticles:
coated
nanoparticles
with
olive
leaf
extract
(Ag-olive)
uncoated
pure
(Ag-pure),
were
produced
by
calcination
Ag-olive
at
550
°C.
fabricated
characterized
variety
physicochemical
techniques,
including
high-performance
liquid
chromatography
(HPLC),
thermal
gravimetric
analysis
(TGA),
X-ray
diffraction
(XRD),
scanning
electron
microscopy
(SEM),
transmission
(TEM).
Adult
ticks
(Hyalomma
dromedarii)
(Acari:
Ixodidae)
in
evaluate
antiparasitic
activity
synthesized
extract.
Furthermore,
antifungal
was
evaluated
against
Aspergillus
aculeatus
strain
N
(MW958085),
Fuserium
oxysporum
(MT550034),
Alternaria
tenuissiuma
(MT550036).
In
both
tests,
as-synthesized
showed
higher
inhibition
than
Ag-pure
findings
research
suggest
that
may
be
powerful
eco-friendly
agent.
as
photocatalyst
under
sunlight
for
detoxification
Eri-chrome-black
T
(EBT),
methylene
blue
(MB),
methyl
orange
(MO),
rhodamine
B
(RhB).
Processes,
Journal Year:
2023,
Volume and Issue:
11(9), P. 2617 - 2617
Published: Sept. 2, 2023
Silver
nanoparticles,
also
known
as
AgNPs,
have
been
extensively
researched
due
to
their
one-of-a-kind
characteristics,
including
optical,
antibacterial,
and
electrical
capabilities.
In
the
era
of
antibiotics
crisis,
with
an
increase
in
antimicrobial
resistance
(AMR)
a
decrease
newly
developed
drugs,
AgNPs
are
potential
candidates
because
substantial
activity,
limited
development,
extensive
synergistic
effect
when
combined
other
drugs.
The
depends
on
delivery
system,
compound
combination,
own
properties,
such
shape
size,
which
heavily
influenced
by
synthesis
process.
Reduction
using
chemicals
or
light,
irradiation
gamma
ray,
laser,
electron
beams
microwave
biological
combination
these
techniques
notable
examples
AgNP
methods.
this
work,
updated
methods
together
strength
shortcomings
reviewed.
Further,
factors
affecting
process
discussed.
Finally,
recent
advances
challenges
considered.
OpenNano,
Journal Year:
2022,
Volume and Issue:
8, P. 100076 - 100076
Published: Aug. 29, 2022
Metal
nanoparticles
(NPs)
exhibit
distinctive
attributes
and
continue
to
entice
researchers
investigate
new
dimensions
of
their
worth.
Amongst
the
different
noble
metal
NPs,
silver
(Ag)
gold
(Au)
NPs
have
stolen
limelight.
AgNPs
AuNPs
are
typically
synthesized
using
hazardous
chemicals,
which
affect
environment
human
health.
This
necessitated
development
environment-friendly
techniques
gave
rise
green
synthesis
methodology.
Plant-based
biological
molecules
in
form
extracts
backbone
plant-mediated
production
outperforms
conventional
chemical
techniques.
These
natural
undergo
a
strictly
regulated
assembling
process
make
them
appropriate
for
forming
NPs.
plant-based
metallic
also
display
well-known
characteristics,
such
as
antitumor,
antioxidant,
antibacterial,
wound
repair,
etc.
The
remarkable
benefits
this
environmentally
friendly
technique
opened
door
fascinating
advancements
current
review
highlights
plant's
plethora
that
can
be
employed
quickly
generate
nanoparticulate
system
adhering
principles
than
ones.
In
addition,
comprehensive
overview
most
recent
patents
research
articles
on
synthesis,
applications,
environmental
effects,
future
prospects
Ag
is
provided.
Conclusively,
it's
imperative
focus
creating
engineered
less
toxic,
controllable
size,
shape,
improved
health
benefits,
expand
applications
related
industries.
Heliyon,
Journal Year:
2024,
Volume and Issue:
10(11), P. e29766 - e29766
Published: May 1, 2024
Nanoparticles
have
recently
become
considered
as
a
crucial
player
in
contemporary
medicine,
with
therapeutic
uses
ranging
from
contrast
agents
imaging
to
carriers
for
the
transport
of
drugs
and
genes
into
specific
target.
ability
more
precise
molecular
interactions
human
body
order
target
cells
tissues
minimal
adverse
effects
maximal
outcomes.
With
least
number
side
greatest
possible
benefit,
nanoparticles
can
particular
through
body.
The
majority
global
public
health
problems
are
now
treated
green
synthesized
silver
(AgNPs),
which
substantially
affect
fundamental
structure
DNA
proteins
thus
display
their
antimicrobial
action.
AgNPs
inhibit
proliferation
tumor
induce
oxidative
stress.
By
inhibiting
vascular
endothelial
growth
factor
(HIF)-1,
pro-inflammatory
mediators
generated
by
reduced,
mucin
hypersecretion
is
lessened,
gene
activity
subsequently
regulated
prevent
infections.
biogenic
synthesis
(AgNPs)
using
various
plants
applications
antibacterial,
antifungal,
antioxidant,
anticancer,
anti-inflammatory,
antidiabetic
activities
been
extensively
discussed
this
article.
Also,
because
only
natural
substances
utilized
manufacturing
process,
particles
that
created
naturally
coated,
stabilized,
play
vital
role
these
biomedical
actions.
characterization
AgNPs,
possibility
preparing
AgNPSs
different
shapes
biological
method
impact
on
functions
toxicities,
size,
shape
other
properties
toxicity
profiles,
limitations,
future
prospects
green-mediated
also
reported
study.
major
goal
study
provide
readers
comprehensive,
informed,
up-to-date
summary
production
methods
under-investigational
antidiabetic,
antifungal
anti-inflammatory
properties.
This
review
provides
instructions
suggestions
additional
studies
based
AgNPs.
evaluation
pushes
researchers
look
resources
like
plant
parts
create
useful
nanobiotechnology.
Nanomaterials,
Journal Year:
2024,
Volume and Issue:
14(17), P. 1425 - 1425
Published: Aug. 31, 2024
Silver
nanoparticles
(Ag
NPs)
have
accumulated
significant
interest
due
to
their
exceptional
physicochemical
properties
and
remarkable
applications
in
biomedicine,
electronics,
catalysis
sensing.
This
comprehensive
review
provides
an
in-depth
study
of
synthetic
approaches
such
as
biological
synthesis,
chemical
physical
synthesis
with
a
detailed
overview
sub-methodologies,
highlighting
advantages
disadvantages.
Additionally,
structural
affected
by
methods
are
discussed
detail
examining
the
dimensions
surface
morphology.
The
explores
distinctive
Ag
NPs,
including
optical,
electrical,
catalytic,
antimicrobial
properties,
which
render
them
beneficial
for
range
applications.
Furthermore,
this
describes
diverse
several
fields,
medicine,
environmental
science,
optoelectronics.
However,
numerous
applications,
kinds
issues
still
exist.
Future
attempts
need
address
difficulties
regarding
techniques,
friendliness,
affordability.
In
order
ensure
secure
utilization
it
is
necessary
establish
sustainability
techniques
eco-friendly
production
methods.
aims
give
analysis,
multifaceted
NPs.
Scientific Reports,
Journal Year:
2025,
Volume and Issue:
15(1)
Published: Jan. 6, 2025
This
study
presents
the
fabrication
and
characterization
of
mixed
matrix
membranes
(MMMs)
incorporating
green-synthesized
silver
nanoparticles
(AgNPs)
using
Hibiscus
Rosa
sinensis
extract
within
a
polyethersulfone
(PES)
for
nanofiltration
(NF)
application.
The
were
evaluated
their
pure
water
permeability,
salt
rejection,
dye
removal,
antifouling
performance.
Results
showed
that
membrane
with
0.75
wt%
AgNPs
exhibited
highest
permeability
36
L/m2
h−1
bar−1
attributed
to
increased
porosity
enhanced
hydrophilicity.
Addition
0.75wt%
resulted
in
significant
improvements,
NaCl
rejection
from
32
57%,
MgSO4
26
67%,
CaCl2
27
41%.
Antifouling
tests
revealed
had
lowest
irreversible
fouling
flux
recovery
due
antimicrobial
action
improved
surface
properties
AgNPs.
Importantly,
performance
fabricated
align
loose
nanofiltation
characteristcs,
as
evidence
by
high
rates
coupled
moderate
salts.
highlights
potential
effective
nanofillers
developing
high-performance
environmentally
sustainable
into
wastewater
treatment.
