Nanomaterials,
Journal Year:
2024,
Volume and Issue:
14(20), P. 1618 - 1618
Published: Oct. 10, 2024
Silver
nanoparticles
(NPs)
have
become
highly
promising
agents
in
the
field
of
biomedical
science,
offering
wide
therapeutic
potential
due
to
their
unique
physicochemical
properties.
The
characteristics
silver
NPs,
such
as
higher
surface-area-to-volume
ratio,
make
them
ideal
for
a
variety
biological
applications.
They
are
easily
processed
thanks
large
surface
area,
strong
plasmon
resonance
(SPR),
stable
nature,
and
multifunctionality.
With
an
emphasis
on
mechanisms
action,
efficacy,
prospective
advantages
this
review
attempts
give
thorough
overview
numerous
applications
these
particles.
utilization
NPs
diagnostics,
bioimaging
biosensing,
well
functions
interventions
antimicrobial
therapies,
cancer
therapy,
diabetes
treatment,
bone
repair,
wound
healing,
investigated.
underlying
processes
by
which
exercise
effects,
oxidative
stress
induction,
apoptosis,
microbial
cell
membrane
rupture,
explored.
Furthermore,
toxicological
concerns
regulatory
issues
discussed,
present
difficulties
restrictions
related
application
medicine.
Materials,
Journal Year:
2022,
Volume and Issue:
15(2), P. 427 - 427
Published: Jan. 6, 2022
Silver
nanoparticles
(AgNPs)
have
been
employed
in
various
fields
of
biotechnology
due
to
their
proven
properties
as
an
antibacterial,
antiviral
and
antifungal
agent.
AgNPs
are
generally
synthesized
through
chemical,
physical
biological
approaches
involving
a
myriad
methods.
As
each
approach
confers
unique
advantages
challenges,
trends
analysis
literature
for
the
synthesis
using
different
types
were
also
reviewed
bibliometric
approach.
A
sum
10,278
publications
analyzed
on
annual
numbers
publication
relating
biological,
chemical
or
from
2010
2020
Microsoft
Excel
applied
Scopus
database.
Furthermore,
another
clustering
mapping
software
used
study
occurrences
author
keywords
biomedical
applications
biosynthesized
total
collection
224
documents
found,
sourced
articles,
reviews,
book
chapters,
conference
papers
reviews.
provides
excellent,
dependable,
effective
solution
seven
major
concerns:
antiviral,
anticancer,
bone
healing,
cement,
dental
wound
healing.
In
recent
years,
sector
anticancer
properties.
This
review
discussed
synthesis,
how
characterized
field.
European Journal of Pharmaceutics and Biopharmaceutics,
Journal Year:
2023,
Volume and Issue:
192, P. 25 - 40
Published: Sept. 20, 2023
The
use
of
nanotechnology
strategies
is
a
current
hot
topic,
and
research
in
this
field
has
been
growing
significantly
the
cosmetics
industry.
Inorganic
nanoparticles
stand
out
context
for
their
distinctive
physicochemical
properties,
leading
particular
to
an
increased
refractive
index
absorption
capacity
giving
them
broad
potential
cutaneous
applications
making
special
interest
dermopharmaceutical
cosmetic
purposes.
This
performance
responsible
its
heavy
inclusion
manufacture
skin
health
products
such
as
sunscreens,
lotions,
beauty
creams,
ointments,
makeup,
others.
In
particular,
suitable
bandgap
energy
characteristics
allow
be
used
photocatalytic
semiconductors.
They
provide
excellent
UV
absorption,
commonly
known
filters,
are
wide
worldwide
sunscreen
formulations
without
undesirable
white
residue
after
consumer
application.
addition,
based
on
inorganic
have
several
additional
relevant
formulation
development,
being
less
expensive
compared
other
nanomaterials,
having
greater
stability,
ensuring
irritation,
itching,
propensity
allergies.
review
will
address
detail
main
products,
titanium
dioxide,
zinc
oxide,
silicon
silver,
gold,
copper,
aluminum
nanoparticles,
nanocrystals,
quantum
dots,
reporting
characteristics,
but
also
intrinsic
properties
that
contribute
type
formulations.
Safety
issues
regarding
toxicity
studies,
both
humans
environment,
well
regulatory
affairs
associated
with
dermopharmaceuticals
cosmetics,
addressed.
Bioengineering,
Journal Year:
2023,
Volume and Issue:
10(3), P. 327 - 327
Published: March 5, 2023
Silver
nanoparticles
have
been
a
recent
focus
of
many
researchers
in
dentistry,
and
their
potential
uses
benefits
drawn
attention
dentistry
medicine.
The
fabrication
utilization
nanoscale
substances
structures
are
at
the
core
rapidly
developing
areas
nanotechnology.
They
often
used
dental
industry
because
they
prevent
bacteria
from
making
nanoparticles,
oxides,
biofilms.
also
stop
metabolism
bacteria.
(AgNPs)
type
zero-dimensional
material
with
different
shapes.
Dentistry
has
to
keep
up
changing
patient
needs
new
technology.
can
be
for
disinfection
preventing
infections
oral
cavity.
One
most
interesting
metallic
biomedical
applications
is
silver
(AgNPs).
field
found
promising
elimination
plaque
tartar,
as
well
bacterial
fungal
mouth.
incorporation
AgNPs
into
materials
shown
significantly
enhance
patients’
health,
leading
widespread
use.
This
review
focuses
on
AgNP
synthesis,
chemical
properties,
biocompatibility,
various
fields,
biomaterials
dentistry.
With
an
emphasis
aspects
related
inclusion
this
descriptive
paper
intends
address
developments
Nanomaterials,
Journal Year:
2024,
Volume and Issue:
14(18), P. 1527 - 1527
Published: Sept. 20, 2024
Recently,
silver
nanoparticles
(NPs)
have
attracted
significant
attention
for
being
highly
desirable
nanomaterials
in
scientific
studies
as
a
result
of
their
extraordinary
characteristics.
They
are
widely
known
effective
antibacterial
agents
that
capable
targeting
wide
range
pathogens.
Their
distinct
optical
characteristics,
such
localized
surface
plasmon
resonance,
enlarge
utilization,
particularly
the
fields
biosensing
and
imaging.
Also,
capacity
to
control
charge
modify
them
using
biocompatible
substances
offers
improved
durability
specific
interactions
with
biological
systems.
Due
exceptional
stability
minimal
chemical
reactivity,
NPs
suitable
diverse
array
applications.
These
produced
through
chemical,
biological,
physical
processes,
each
which
has
advantages
disadvantages.
Chemical
techniques
often
encounter
issues
complicated
purification,
reactive
substances,
excessive
energy
usage.
However,
eco-friendly
approaches
exist,
even
though
they
require
longer
processing
times.
A
key
factor
affecting
stability,
size
distribution,
purity
is
synthesis
process
selected.
This
review
focuses
on
how
essential
it
choose
appropriate
method
order
optimize
characteristics
use
NPs.
International Journal of Molecular Sciences,
Journal Year:
2024,
Volume and Issue:
25(2), P. 1001 - 1001
Published: Jan. 13, 2024
Globally,
cardiovascular
diseases
(CVDs)
are
the
leading
cause
of
death
and
disability.
While
there
many
therapeutic
alternatives
available
for
management
CVDs,
majority
classic
strategies
were
found
to
be
ineffective
at
stopping
or
significantly/additionally
slowing
progression
these
diseases,
they
had
unfavorable
side
effects.
Numerous
metal-based
nanoparticles
(NPs)
have
been
created
overcome
limitations,
demonstrating
encouraging
possibilities
in
treatment
CVDs
due
advancements
nanotechnology.
Metallic
nanomaterials,
including
gold,
silver,
iron,
come
various
shapes,
sizes,
geometries.
NPs
generally
smaller
more
specialized
physical,
chemical,
biological
properties.
Metal-based
may
forms,
such
as
nanoshells,
nanorods,
nanospheres,
studied
most.
Massive
potential
applications
metal
nanomaterial
structures
include
supporting
molecular
imaging,
serving
drug
delivery
systems,
enhancing
radiation-based
anticancer
therapy,
supplying
photothermal
transforming
effects
thermal
being
compounds
with
bactericidal,
fungicidal,
antiviral
qualities
that
helpful
diseases.
In
this
context,
present
paper
aims
review
relevant
oxide
creating
an
up-to-date
framework
aids
researchers
developing
efficient
strategies.
Scientific Reports,
Journal Year:
2024,
Volume and Issue:
14(1)
Published: Feb. 15, 2024
Abstract
The
high
mortality
rate
of
colon
cancer
indicates
the
insufficient
efficacy
current
chemotherapy.
Thus,
discussion
on
engineered
metal
nanoparticles
in
treatment
disease
has
been
considered.
In
this
study,
silver
were
functionalized
with
glutamine
and
conjugated
thiosemiccarbazide.
Then,
anticancer
mechanism
Ag@Gln-TSC
NPs
a
cell
line
(SW480)
was
investigated.
Characterizing
by
FT-IR,
XRD,
EDS-mapping,
DLS,
zeta
potential,
SEM
TEM
microscopy
revealed
that
correctly
synthesized,
particles
spherical,
surface
charge
−
27.3
mV,
thermal
stability
low
agglomeration
level.
Using
MTT
assay
we
found
significantly
more
toxic
for
cells
than
normal
fibroblast
IC
50
88
186
µg/mL,
respectively.
Flow
cytometry
analysis
showed
treating
leads
to
considerable
increase
frequency
apoptotic
(85.9%
cells)
increased
cycle
arrest
at
S
phase.
Also,
several
features,
including
hyperactivity
caspase-3
(5.15
folds),
expression
CASP8
gene
(3.8
nuclear
alterations
noticed
nanoparticle
treated
cells.
Furthermore,
caused
significant
down-regulation
HULC
Lnc-RNA
PPFIA4
oncogene
0.3
0.6
folds,
Overall,
work
can
effectively
inhibit
through
activation
pathways,
feature
be
considered
studies
field
treatment.
RSC Advances,
Journal Year:
2025,
Volume and Issue:
15(5), P. 3858 - 3903
Published: Jan. 1, 2025
A
sustainable
and
viable
alternative
for
conventional
chemical
physical
approaches
is
the
green
production
of
silver
nanoparticles
(SNPs)
using
plant
extracts.
